Reference Data Manager (PD_Data) Reference Guide Document Number DPDS3-PB-200034A DPDS3-PB-200034B
Version PDS 7.1 PDS 7.2
Date April 2002 February 2003
Pages 1-684 685-694
Warranties and Liabilities All warranties given by Intergraph Corporation about equipment or software are set forth in your purchase contract, and nothing stated in, or implied by, this document or its contents shall be considered or deemed a modification or amendment of such warranties. The information and the software discussed in this document are subject to change without notice and should not be considered commitments by Intergraph Corporation. Intergraph Corporation assumes no responsibility for any error that may appear in this document. The software discussed in this document is furnished under a license and may be used or copied only in accordance with the terms of this license. No responsibility is assumed by Intergraph for the use or reliability of software on equipment that is not supplied by Intergraph or its affiliated companies.
Trademarks CLIX, Intergraph, and RIS are registered trademarks of Intergraph Corporation. DBACCESS, DesignReview, DIALOG, EE Raceway, FrameWorks, Project Engineer, and SEE are trademarks of Intergraph Corporation. All other brands and product names are trademarks of their respective owners.
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________________
If You Need Assistance
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Intergraph Directory The following numbers are only valid in the United States unless otherwise indicated. If you are outside the United States, please call your local Intergraph office.
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Mailing Address Intergraph Process, Power & Offshore 300 Intergraph Way Madison, Alabama 35758 U.S.A. You can also reach us by electronic mail at
[email protected].
3
________________ Documentation Contacts We are constantly working on updates and improvements to the documents and other educational media. If you have any suggestions on where we can improve the documentation or where you think more information is needed, let us know. You can reach us by: Mail
4
Intergraph Process, Power & Offshore Documentation Manager 300 Intergraph Way Madison, AL 35758
________________
Table of Contents
Table of Contents If You Need Assistance ........................................................................................................ Intergraph Directory .............................................................................................................
3 3
Preface .................................................................................................................................................
15
General Conventions ....................................................................................................................
17
Keyboard Conventions ......................................................................................................... Terminology .........................................................................................................................
18 19
Introduction ..................................................................................................................................
21
1.1 1.2
Project Organization ............................................................................................................ Reference Data Overview ...................................................................................................
22 23
1.2.1 Piping Job Specification Introduction ..................................................................... Graphic Commodity Data Introduction .............................................................................. Material Description Data Introduction .............................................................................. Standard Note Library Introduction .................................................................................... Label Description Library Introduction .............................................................................. Piping Assembly Library Introduction ................................................................................
27 27 28 28 29 29
Reference Database Introduction ........................................................................................ Delivered Reference Data ................................................................................................... Reference Data Setup ..........................................................................................................
30 31 32
PDS Environment ........................................................................................................................
33
PD Shell .......................................................................................................................................
34
PD_Shell Form Conventions .............................................................................................. Common Tools on the PD Shell Forms .............................................................................. Batch Processes ...................................................................................................................
37 37 40
Help ..............................................................................................................................................
41
Reference Data Manager ..............................................................................................................
43
3.1 3.2
Data Security ....................................................................................................................... Reference Data Archival .....................................................................................................
45 46
Reference Data Location ..............................................................................................................
47
4.1 4.2
48 53
1.
1.3 1.4 1.5 2.
3.
4.
Reference Database Management Data ............................................................................... Default Project Control Data ...............................................................................................
5
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5.
Piping Job Specification ...............................................................................................................
55
5.1 5.2
56 59
Material Reference Database Structure ............................................................................... Neutral File Input ................................................................................................................ 5.2.1 5.2.2 5.2.3 5.2.4 5.2.5 5.2.6 5.2.7 5.2.8 5.2.9 5.2.10
5.3
Piping Materials Class Data (201) .......................................................................... Piping Commodity Specification Data (202) .......................................................... Piping Specialty Specification Data (203) .............................................................. Instrument Component Specification Data (204) ................................................... Tap Properties Data (205) ....................................................................................... Piping Commodity Size-Dependent Material Data (211) ....................................... Piping Commodity Implied Material Data (212) .................................................... Component Insulation Exclusion Data (231) .......................................................... Flange Insulation Exclusion Data (232) .................................................................. Piping Construction Tolerance Exclusion Data (233) ..........................................
62 67 77 81 85 88 91 95 98 101
Spec Writer ..........................................................................................................................
103
5.3.1 5.3.2
RDB Options File .................................................................................................... Piping Materials Class Data Command ..................................................................
105 113
5.3.2.1
Create/Revise Piping Materials Class Data ..............................................
114
Piping Commodity Data Command ........................................................................
117
5.3.3.1 5.3.3.2 5.3.3.3
Create/Revise Piping Commodity Specification Data ............................. Implied Data ............................................................................................. Add Entry to Material Description Library ..............................................
119 126 128
Piping Specialty Data Command ............................................................................
129
5.3.4.1
Create/Revise Piping Specialty Specification Data .................................
130
Instrument Data Command .....................................................................................
133
5.3.5.1
Create/Revise Instrument Specification Data ..........................................
134
Tap Properties Data Command ...............................................................................
137
5.3.6.1
Create/Revise Tap Properties Data ..........................................................
138
Commodity Implied Data Command ......................................................................
140
5.3.7.1
Create/Revise Piping Commodity Implied Material Data .......................
141
Table Checker .........................................................................................................
144
Piping Job Specification Manager ......................................................................................
145
5.3.3
5.3.4
5.3.5
5.3.6
5.3.7
5.3.8 5.4
6
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Table of Contents
5.4.1 5.4.2 5.4.3
Load, Replace, and Replace Commodity Subset Options ....................................... Delete Option .......................................................................................................... Report Option ..........................................................................................................
148 151 152
Piping Job Spec Report Manager ........................................................................................
154
5.5.1 5.5.2
Using the Report Commands .................................................................................. Report Format Form ................................................................................................
155 157
5.5.2.1 5.5.2.2
Format Creation/Revision Form .............................................................. Format Deletion Form ..............................................................................
159 161
Report Discrimination Data Form ...........................................................................
163
5.5.3.1 5.5.3.2 5.5.3.3 5.5.3.4
Discrimination Data Creation Form ......................................................... Search Criteria Form ................................................................................ Discrimination Data Revision Form ........................................................ Discrimination Data Deletion Form .........................................................
165 167 169 171
Report Form ............................................................................................................
173
5.5.4.1 5.5.4.2 5.5.4.3 5.5.4.4 5.5.4.5
Report Creation Form .............................................................................. Revise Report Form ................................................................................. Report Deletion Form .............................................................................. Report Approval Form ............................................................................. Report Multiple Submit Form ..................................................................
175 178 181 183 184
Report Management Defaults Form ........................................................................
186
Piping Job Specification Tables ...................................................................................................
189
6.1
PJS Tables and Functions ...................................................................................................
190
6.1.1 6.1.2 6.1.3 6.1.4 6.1.5
Temperature and Pressure Service Limits Table ..................................................... Nominal Piping Diameters Table ............................................................................ Thickness Data Tables ............................................................................................ Materials Data Table ............................................................................................... Wall Thickness and Branch Reinforcement Equations ...........................................
191 194 197 200 203
Delivered Equations ........................................................................................
204
Branch Insertion Tables .......................................................................................... Gasket Separation Table ......................................................................................... Fluid Code Table .....................................................................................................
208 212 214
RDB Tables .........................................................................................................................
215
6.2.1 6.2.2 6.2.3
216 219 221
5.5
5.5.3
5.5.4
5.5.5 6.
6.1.6 6.1.7 6.1.8 6.2
Commodity Item Name Table (G02) ...................................................................... Bend Deflection Table (G04) .................................................................................. Segment Pipe Run Length Threshold Table (G06) .................................................
7
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6.2.4 6.2.5 6.2.6 6.2.7 6.2.8 6.2.9 6.2.10 6.2.11 6.2.12 6.2.13 6.2.14 6.2.15
Pipe Length Threshold Table (G07) ....................................................................... Preferred Bolt Length Table (G11) ......................................................................... Weld Type Table ..................................................................................................... Weld Clearance Table ............................................................................................. Weld Graphics Dimensions Table .......................................................................... Bolt Commodity Code Table .................................................................................. Gasket Diameter Table .......................................................................................... Field Fit Length Table ........................................................................................... Component Mirror Table ...................................................................................... Operator Mirror Table ........................................................................................... Default End Preperation Table .............................................................................. MTO Tables and Functions ...................................................................................
222 223 226 228 229 230 231 232 233 234 236 237
Piping Job Specification Tables Command ........................................................................
239
6.3.1 6.3.2 6.3.3 6.3.4 6.3.5 6.3.6 6.3.7 6.3.8 6.3.9 6.3.10 6.3.11
Options .................................................................................................................... Create Library ......................................................................................................... Compress Library .................................................................................................... Unapproved ==> Approved .................................................................................... Create/Interactive Spec Tables ................................................................................ Create/Batch Spec Tables ....................................................................................... Revise Spec Tables ................................................................................................. Delete Spec Tables .................................................................................................. Report on Spec Tables ............................................................................................ List Spec Tables .................................................................................................... Extract Spec Tables ...............................................................................................
240 242 242 242 243 244 245 247 248 250 251
Graphic Commodity Data ............................................................................................................
253
7.1
Graphic Commodity Library ...............................................................................................
254
7.1.1 7.1.2 7.1.3 7.1.4
Symbol Processors .................................................................................................. Sub-Symbol Processor ............................................................................................ Physical Data Definitions ........................................................................................ Parametric Shape Definitions ..................................................................................
256 258 259 263
Physical Data Tables ...........................................................................................................
266
7.2.1 7.2.2
Data Retrieval from the Physical Data Library ....................................................... Example of Physical Data Look-Up .......................................................................
267 268
Notes for Graphic Commodity Data ...................................................................................
270
7.3.1 7.3.2 7.3.3 7.3.4
Connect Point Data ................................................................................................. Bends and Branches ................................................................................................ Bolts, Gaskets, and Flanges .................................................................................... Pipe, Tubing, and Hose ...........................................................................................
270 271 272 273
Graphic Commodity Library Manager ................................................................................
275
6.3
7.
7.2
7.3
7.4
8
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Table of Contents
7.4.1 7.4.2 7.4.3 7.4.4 7.4.5 7.4.6 7.4.7 7.4.8 7.4.9 7.4.10
Create Library ......................................................................................................... Compress ................................................................................................................. Unapproved ==> Approved .................................................................................... Create/Interactive Graphic Commodity Data .......................................................... Create/Batch Graphic Commodity Data ................................................................. Revise Graphic Commodity Data ........................................................................... Delete Graphic Commodity Data ............................................................................ Report Graphic Commodity Data ........................................................................... List Graphic Commodity Data ................................................................................ Extract Graphic Commodity Data .........................................................................
277 277 277 278 279 281 283 284 285 286
Physical Data Library Manager ...........................................................................................
287
7.5.1 7.5.2 7.5.3 7.5.4 7.5.5 7.5.6 7.5.7 7.5.8 7.5.9 7.5.10
Create Library ......................................................................................................... Compress ................................................................................................................. Unapproved ==> Approved .................................................................................... Create/Interactive Physical Commodity Data ......................................................... Create/Batch Physical Commodity Data ................................................................. Revise Physical Commodity Data ........................................................................... Delete Physical Commodity Data ........................................................................... Report Physical Commodity Data ........................................................................... List Physical Commodity Data ............................................................................... Extract Physical Commodity Data ........................................................................
290 290 290 291 292 294 296 297 299 300
Table Formats and Naming Conventions .....................................................................................
303
8.1
Table Conventions ..............................................................................................................
304
8.1.1 8.1.2 8.1.3 8.1.4 8.1.5 8.1.6 8.1.7 8.1.8 8.1.9 8.1.10 8.1.11
Table Names ............................................................................................................ Comments ............................................................................................................... Revision Markers .................................................................................................... Component Tables .................................................................................................. Units ........................................................................................................................ Fields (Input/Output Columns) ............................................................................... NPD Values ............................................................................................................. Rating ...................................................................................................................... Schedule/Thickness ................................................................................................. Weight Tables ....................................................................................................... Abbreviations ........................................................................................................
304 304 305 305 306 308 309 309 310 313 314
Table Requirements ............................................................................................................
315
8.2.1
Tables Required for Piping Components ................................................................
315
8.2.1.1 8.2.1.2
Fittings (6P2C, 6P3C, 6Q2C and 6Q3C) ................................................. Specialty Piping Components (6P6C and 6Q6C) ....................................
316 317
Tables Required for Instrument Components .........................................................
318
7.5
8.
8.2
8.2.2
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8.3
8.4
Generic Tables ....................................................................................................................
319
8.3.1 8.3.2 8.3.3 8.3.4 8.3.5 8.3.6 8.3.7
Variables for Generic Tables ................................................................................... Generic Table for Bolted Ends (G10) ..................................................................... Generic Table for Studs used in Bolted Connections (G12) ................................... Generic Table for Studs in Bolted Connections w/ Term Type (G12T) ................. Generic Table for Male Ends (G20) ........................................................................ Generic Table for Female Ends (G30) .................................................................... Generic Table for Weight and Thickness Data, Male Ends (G50) .........................
320 324 326 328 330 332 333
Piping Component Tables ...................................................................................................
334
8.4.1 8.4.2 8.4.3 8.4.4
336 339 341
Variables for Specific Tables .................................................................................. Piping Component Table for GCP Data (P11A, P15A) .......................................... Piping Component Table GCP Overflow Data (P11B, P15B) ............................... Piping Component Table Green and Red CP Data (P21A,P25A,P26A,P27A,P28A,P29A) .................................................................. 8.4.5 Piping Component Table Green and Red CP Overflow Data (P21B,P25B,P26B,P27B,P28B) ............................................................................. 8.4.6 Piping Component Table for Operators and Actuators (P31A) .............................. 8.4.7 Piping Component Table for Operators and Actuators, Overflow Data (P31B) .... 8.4.8 Piping Component Table for Empty Weight based on GCP Data (P51,P52,P59) ......................................................................................................... 8.4.9 Piping Component Table For Empty Weight of Valves (P60A) ............................ 8.4.10 Piping Component Table For Empty Weight of Valves, Overflow Data (P60B) ................................................................................................................... 8.4.11 Piping Component Table for Empty Weight based on GCP and RCP Data (P61,P62,P63,P64,P65) ......................................................................................... 8.4.12 Piping Component Tables for Specialty Components .......................................... 8.5
9.
10
342 344 345 347 348 350 351 352 354
Instrument Component Tables ............................................................................................
355
8.5.1 8.5.2
Instrument Body (I80 and P80) ............................................................................... Instrument Operator (I81 and P81) .........................................................................
355 358
Material Description Data ............................................................................................................
361
9.1 9.2 9.3 9.4 9.5
Material Data in the Material Reference Database ............................................................. Short Material Description Library ..................................................................................... Long Material Description Library ..................................................................................... Specialty Material Description Library ............................................................................... Material Description Library Manager ...............................................................................
366 367 372 374 376
9.5.1 9.5.2 9.5.3 9.5.4 9.5.5 9.5.6 9.5.7
378 378 379 380 381 382 383
Create Library ......................................................................................................... Unapproved ==> Approved .................................................................................... Load/Revise Interactive .......................................................................................... Load/Revise Batch .................................................................................................. Replace Interactive .................................................................................................. Replace Batch .......................................................................................................... Report Option ..........................................................................................................
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Table of Contents
10.
Table Checker ............................................................................................................................
385
10.1
Table Checker Form ........................................................................................................
389
10.1.1 10.1.2
Using the Report Commands ............................................................................ Report Format Form ..........................................................................................
390 392
10.1.2.1 10.1.2.2
Format Creation/Revision Form ...................................................... Format Deletion Form ......................................................................
394 396
Discrimination Data Form .................................................................................
398
10.1.3.1 10.1.3.2 10.1.3.3
Discrimination Data Creation Form ................................................. Discrimination Data Revision Form ................................................ Discrimination Data Deletion Form .................................................
400 402 404
Report Form ......................................................................................................
406
10.1.4.1 10.1.4.2 10.1.4.3 10.1.4.4 10.1.4.5
Report Creation Form ...................................................................... Revise Report Form ......................................................................... Report Deletion Form ...................................................................... Report Approval Form ..................................................................... Report Multiple Submit Form ..........................................................
408 411 414 416 418
Report Management Defaults Form ..................................................................
420
Sample Table Checker Output ........................................................................................
422
Pipe Support Tutorial Definition Manager ................................................................................
437
11.1
Support Tutorial Definition Manager ..............................................................................
438
11.1.1 11.1.2 11.1.3 11.1.4 11.1.5 11.1.6 11.1.7 11.1.8 11.1.9
Create Library ................................................................................................... Compress ........................................................................................................... Unapproved ==> Approved .............................................................................. Create Data ........................................................................................................ Revise Data ....................................................................................................... Report Data ....................................................................................................... List Data ............................................................................................................ Delete Data ........................................................................................................ Extract Data .......................................................................................................
440 440 440 441 442 444 445 446 447
Standard Note Library ................................................................................................................
449
12.1
Standard Note Library Manager ......................................................................................
453
12.1.1 12.1.2 12.1.3 12.1.4
455 455 455 456
10.1.3
10.1.4
10.1.5 10.2 11.
12.
Create Library ................................................................................................... Compress ........................................................................................................... Unapproved ==> Approved .............................................................................. Create Standard Note Type ...............................................................................
11
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12.1.5 12.1.6 12.1.7 12.1.8 12.1.9 12.1.10 13.
Revise Standard Note Type ............................................................................... Report Standard Note Library Contents ............................................................ List Standard Note Data .................................................................................... Delete Standard Note Data ................................................................................ Extract Standard Note Type .............................................................................. Load Database .................................................................................................
457 459 460 461 462 463
Label Description Library ..........................................................................................................
465
13.1
Label Types .....................................................................................................................
466
13.1.1 13.1.2 13.1.3 13.1.4 13.1.5 13.1.6 13.1.7
Displayable Attribute Labels ............................................................................. Alphanumeric Labels ........................................................................................ Displayable Attribute Message ......................................................................... Commodity Code Attribute Message ................................................................ Isometric Drawing Labels ................................................................................. Report Labels .................................................................................................... Clash Management Labels ................................................................................
466 466 466 467 467 468 468
Label Description Library Manager ................................................................................
471
13.2.1 13.2.2 13.2.3 13.2.4
Create Library ................................................................................................... Compress Library .............................................................................................. Unapproved ==> Approved .............................................................................. Create Label Data ..............................................................................................
472 472 472 473
13.2.4.1 13.2.4.2 13.2.4.3
Create Label Graphic Data ............................................................... Create Label Attribute Data ............................................................. Mass Annotation Options .................................................................
475 478 484
Revise Label Data ............................................................................................. Delete Label Data .............................................................................................. Report Label Data .............................................................................................
485 487 489
Label Library Merger ......................................................................................................
495
13.3.1
Label Library Merger Interface .........................................................................
495
13.3.1.1
File Menu .........................................................................................
497
13.3.1.1.1 13.3.1.1.2 13.3.1.1.3 13.3.1.1.4 13.3.1.1.5
Open Source Label Library 1 ....................................... Open Source Label Library 2 ....................................... Open Destination Library ............................................. Information ................................................................... Exit ...............................................................................
497 497 497 497 498
Edit Menu .........................................................................................
499
13.3.1.2.1 13.3.1.2.2
499 499
13.2
13.2.5 13.2.6 13.2.7 13.3
13.3.1.2
12
Select All ...................................................................... Unselect All ..................................................................
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Table of Contents
13.3.1.2.3 13.3.1.2.4 13.3.1.2.5 13.3.1.2.6 13.3.1.2.7 13.3.1.2.8 13.3.1.2.9 13.3.1.2.10
Invert Selection ............................................................ Edit Label Number ....................................................... Edit Label Description ................................................. Delete ........................................................................... Validate ........................................................................ Compress Destination Library ..................................... Copy to Destination ..................................................... Clear Error Messages .................................................
499 499 499 499 499 500 500 500
Help Menu ........................................................................................
501
13.3.1.3.1 13.3.1.3.2
Contents ....................................................................... About Library Merger ..................................................
501 501
Workflow ..........................................................................................................
502
Piping Assembly Library ...........................................................................................................
505
14.1
Piping Assembly Language .............................................................................................
506
14.1.1 14.1.2 14.1.3
PAL Keywords .................................................................................................. Placing Taps in Assemblies .............................................................................. Sample Piping Assembly Files .........................................................................
506 520 521
Piping Assembly Library Manager .................................................................................
525
14.2.1 14.2.2 14.2.3 14.2.4 14.2.5 14.2.6 14.2.7 14.2.8 14.2.9 14.2.10 14.2.11
Options .............................................................................................................. Create Library ................................................................................................... Compress ........................................................................................................... Unapproved ==> Approved .............................................................................. Create/Interactive Piping Assembly Data ......................................................... Create/Batch Assembly Data ............................................................................ Revise Piping Assembly Data ........................................................................... Delete Piping Assembly Data ........................................................................... Report Assembly Data ...................................................................................... List Assembly Data ......................................................................................... Extract Assembly Data ....................................................................................
525 527 527 527 528 529 530 532 533 534 535
Reference Database Revision Manager ......................................................................................
537
15.1 15.2 15.3
Reference Data Conflict Report ...................................................................................... Table Change Report ....................................................................................................... Reference Data Impact Report ........................................................................................
540 546 551
15.3.1
Examples ...........................................................................................................
551
Proposed RDB Changes Report ......................................................................................
555
Verify RDB Library ...................................................................................................................
561
13.3.1.3
13.3.2 14.
14.2
15.
15.4 16.
13
________________ Reference Data Manager Reference Guide — April 2002
Appendix A:
Reference Data Manager Error Messages ..................................................................
565
Appendix B:
Codelists .....................................................................................................................
567
General Comments .................................................................................................................... Comments Specific to Units of Measure Codelist Sets .............................................................
569 569
Glossary ...............................................................................................................................................
667
Index ....................................................................................................................................................
675
B.1 B.2
14
________________
Preface
Preface Document Purpose This document is a reference guide for the Reference Data Manager module of the PDS 3D products. PDS 3D uses interactive graphics and database management techniques to integrate the engineering and design/drafting execution of plant design. The Reference Data Manager module is one part of the overall Plant Design System. It is specifically designed to define and modify the reference data for the PDS 3D modules. It enables you to control and standardize the PDS 3D tasks. You can also modify the reference data to reflect company practices and standards. This document is designed as a reference; it is organized around the structure of the product rather than presenting a typical work flow. Use this guide when you need to look up a specific Reference Data Manager function.
Document Prerequisites / Audience This document is intended for project managers who have a working knowledge of the PDS 3D Modules. Knowledge of relational database systems and basic file manipulations is recommended. You should also be familiar with a text editor, such as Notepad, vi, or EMACS.
Related Documents/Products Intergraph Corporation’s Relational Interface System (RIS)TM is required to operate PDS 3D, along with a relational database management system (RDBMS) supported by RIS. Currently, these include Informix, Oracle, and Ingres. Information about RIS capabilities can be found in the following documents: Relational Interface System (RIS) Reference Manual Relational Interface System (RIS) Operator Training Guide For more information on related aspects of the PDS 3D products, consult the following documents: Project Administrator Reference Guide Piping Design Graphics Reference Guide Equipment Modeling Reference Guide
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________________ Reference Data Manager Reference Guide — April 2002
Report Manager Reference Guide
About this Document This document contains front matter, numbered sections, appendices, a glossary, and an index. Much of this document is devoted to a description of the forms used to setup and maintain reference data. Section 1
Provides an overview of the product. It describes general information, terms, and work flow.
Section 2
Describes the product environment. This includes information on accessing the product and common conventions for working in the PDS 3D modules.
Section 3
Describes the main Reference Data Manager form used to access the product.
Sections 4-16
Describe the individual libraries and managers which make up the Reference Data Manager including operating steps for each form within the manager.
Appendices
Provide additional information related to the Reference Data Manager such as error messages, and file listings.
Additional Information The following informational files are delivered with the software in the directory.
16
File Name
Contents
readme.txt
Describes changes and additions to the product since the last version. For a fixes release, the fixes are appended to the top of the initial file to provide a history of all changes to the product. Includes Comments and Trouble Report numbers which describe what problems have been fixed. Provides special notices to the customer. Lists any exceptions made to the certification.
________________
Preface
General Conventions This document contains many visual cues to help you understand the meaning of certain words or phrases. The use of different fonts for different types of information allows you to scan the document for key concepts or commands. Symbols help abbreviate and identify commonly used words, phrases, or groups of related information.
Typefaces Italic
Indicates a system response, which is an explanation of what the software is doing. For example, The text is placed in the viewing plane.
Bold
Indicates a command name, parameter name, or dialog box title. Command paths are shown using an arrow between command names. For example, Choose File > Open to load a new file.
Sans serif
Indicates a system prompt or message, which requires an action be taken by the user. For example, Select first segment of alignment
Bold Typewriter Indicates what you should literally type in. For example, Key in original.dat to load the ASCII file. Normal Typewriter Indicates an actual file or directory name. For example, The ASCII report is stored in the layout.rpt file.
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________________ Reference Data Manager Reference Guide — April 2002
Symbols This document uses the following symbols to represent mouse buttons and to identify special information:
Command button Data button (usually the left mouse button) Reset/reject button (usually the right mouse button) Tentative button (usually the center mouse button) Note — Important supplemental information.
Warning — Critical information that could cause the loss of data if not followed.
Technical tip or information — provides information on what the software is doing or how it processes information. Map or path — shows you how to get to a specific command or form.
More information — indicates there is additional or related information.
Need a hint — used with activities and labs, provides a tip or hint for doing the exercises.
Keyboard Conventions The following list outlines the abbreviations this document uses for keyboard keys and describes how to use them in combination. You can make some menu selections through the use of keyboard accelerators, which map menu selections to key combinations.
18
ALT CTRL DEL ENTER ESC
Alternate key Control key Delete key Enter key Escape key
CTRL+z ESC,k
To hold down the Control key and press Z. To press the Escape key, then K.
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Preface
Terminology Click
To use a mouse or key combination to pick an item that begins an action. For example, Click Apply to save the changes.
Select
To mark an item by highlighting it with key combinations or by picking it with your cursor. Selecting does not initiate an action. After selecting an item, you click the action you want to affect the item. For example, Select the file original.dat from the list box, then click Delete to remove it from the directory. In addition, you would select items to define parameters, such as selecting toggle buttons. This also applies to selecting graphic elements from the design file. For example, Select the line string to define the graphic template.
Tentative-select
To place a tentative point on an existing graphic element in a design file. If you are using the CLIX operating system, you tentative-select by double-clicking with a mouse or pressing on a hand-held cursor. If you are using the Windows NT operating system, you tentative-select by pressing a left-button, right-button chord.
Double-click
To select and execute a command by clicking the mouse or hand-held cursor button twice in rapid succession. This term implies that you are clicking the data button () as part of a menu or dialog box action. For example, Double-click on the file original.dat to load it into the new surface.
Drag
To press and hold the data button () while moving the mouse or hand-held cursor.
Type
To key a character string into a text box.
Key in
To type in data and press ENTER to enter the data and execute the default action. In a dialog box, pressing TAB after keying in data will enter the data and move the cursor to the next field.
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Introduction
1.
Introduction
Specifically, the Plant Design System (PDS) integrates many discipline-specific software modules; these modules automate the many phases of a plant design project. Reference Data Manager (PD_Data) is one of these modules. In PDS, placement of piping components is driven by the specification. The PDS reference data provides the selection criteria for the piping commodity items that are found in the piping job specification and the piping commodity libraries that are delivered with the product. This data is contained in the reference database (RDB) and can be used by other projects. The Reference Data Manager (PD_Data) is specifically designed to define and modify the reference data for the PDS 3D modules. This reference data ensures consistency in the definition of piping specifications and commodity libraries. It is used to control and standardize the PDS 3D modules to reflect company practices and standards.
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1. Introduction
Welcome to the Reference Data Manager (PD_Data) module of the Plant Design System of software. Intergraph’s plant design software can be used to design any type of plant—from petrochemical plants, offshore platforms, chemical and pharmaceutical plants, consumer products (food, beverages, cosmetics, soap, paper, and so forth), to power plants, waste water treatment plants, and cogeneration facilities.
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1.1
Project Organization Since a process plant such as a refinery can be extremely large, PDS uses the following organization to break the plant into smaller pieces that can be handled more easily. A project is a convenient grouping of either all or part of the items that constitute a plant. The project is the fundamental structure for working in PDS. Each project contains all the information required to work in a PDS task. The Project Administrator controls the creation and modification of Piping projects. Each Piping project consists of a project control database, project design database, piping and equipment models, reference models (structural, HVAC, and electrical raceway), a set of drawings, and a collection of reference data. The reference data may be specific to one project or shared by more than one project. A project and all of its accompanying files must be defined with the Project Administrator before you can use any of the other 3D PDS modules. Refer to the Project Administrator Reference Guide for more information on setting up a project.
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Reference Data Overview
1.2
Reference Data Overview 1. Introduction
The Reference Data Manager (PD_Data) enables you to define and modify the reference data for the PDS 3D modules. This reference data is used to ensure consistency in the definition of piping specifications and commodity libraries. It enables you to control and standardize the PDS 3D tasks. You can also modify the reference data to reflect company practices and standards. The Reference Data for PDS 3D is composed of the following basic components:
Spec/Material Database Table 201 - Piping Material Class Data Table 202 - Piping Commodity Specification Data Table 203 - Piping Specialty Specification Data Table 204 - Instrument Component Specification Data Table 205 - Tap Properties Data Table 211 - Piping Commodity Size-Dependent Material Data Table 212 - Piping Commodity Implied Material Data Table 231 - Component Insulation Exclusion Data Table 232 - Flange Insulation Exclusion Data
Practice Specific Reference Data Physical Dimension Tables Piping Job Specification Tables Short Material Descriptions Long Material Descriptions Specialty Material Descriptions
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Practice Independent Reference Data Graphic Commodity Data Standard Note Library Label Description Library Piping Assembly Library The Reference Data Manager supports both approved and unapproved reference data for a project. The Project Control Database contains complete file management data for both an approved and unapproved version of each type of reference data such as the Piping Job Specification or the Graphic Commodity Library. This allows revisions to take place in unapproved files while other processes read the approved files. Once the information in the unapproved files has been verified, it can be posted to the approved reference data files. The following figure illustrates the various pieces of reference data required to place a 6" gate valve in a piping model and report on the placed component. It depicts how the various parts that make up PDS work together. Whenever possible, this placement example will be used throughout the rest of this document. For example, the discussion of the physical dimension tables will use the tables called to place the gate valve as examples.
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Reference Data Overview
1. Introduction
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Piping Job Specification Introduction
1.2.1
Piping Job Specification Introduction
Specification/Material Reference Database - database containing the definitions for piping materials classes, commodity items, specialty items, and tap properties tables. Spec Table Library - library containing the specification tables referenced in the PJS. The information in the Specification/Material Reference database and Spec Table Library tables is also delivered in the form of neutral files which you can extract and modify. The Piping Job Specification Manager enables you to create or revise the specificaton data in the Material Reference Database. You can use the interactive (forms-driven) specification writer or define/revise the data using ASCII neutral files. The Piping Job Spec Tables command enables you to create, revise, and delete tables in the Spec Table Library.
Graphic Commodity Data Introduction The graphic commodity data is used to define commodity items, specialty items, and instruments. The Graphic Commodity Library contains the parametric symbol definitions required to place piping and instrument components in a 3D model. When you place a component the system uses the Piping Job Specification to select the appropriate component from the parametric symbol definition library which then accesses the component dimensional data. The graphic commodity data is contained in the following object libraries: Graphic Commodity Library - contains the parametric definitions for the commodity items. Physical Dimension Libraries - contains dimension data for the commodity items. (A different Physical Dimension Library is required for each type of practice such as, U.S., DIN, or British Standard) Spec Table Library - contains the specification tables referenced in the PJS. The parametric descriptions and dimension tables are also delivered in the form of text libraries which you can extract and modify using the Graphic Commodity Library Manager and Physical Data Library Manager.
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1. Introduction
The Piping Job Specification (PJS) provides selection criteria for piping commodity items, piping specialty items, and instruments. The information for the Piping Job Specification is contained in the following files:
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Material Description Data Introduction The Material Description Data is accessed for Material Take-off (MTO) reporting from the Design Database Other miscellaneous reporting Interfaces to the material control system Stress analysis Isometric drawing extraction. The Material Description Data consists of the commodity item data which is not stored in the Design Database, which is not required for the creation of graphic symbologies, and which is not part of the geometric data. This data is contained in the following files: Material Data in the Specification/Material Database - database tables containing definitions for commodity items, criteria for implied material, and weld data. Short Material Description Library - contains the short material descriptions for commodity items and taps. Long Material Description Library - contains the long material descriptions for commodity items. Specialty Material Description Library - contains the material descriptions for specialty items. The material descriptions are also delivered in the form of neutral files which you can modify and post to the libraries. The Material Description Library Manager enables you to create, revise, and delete data in the Material Description Libraries. You can use the Piping Job Specification Manager to load the material data tables in the Specification/Material Database.
Standard Note Library Introduction The text for code-listed attributes and standard notes is stored in the Standard Note Library. All attributes identified as code-listed are actually stored as integer values. The code list text associated with the integer is stored in the Standard Note Library. Information in the Standard Note Library is identified by note number and note type. Output from the library consists of free-format text which forms the standard note.
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Piping Job Specification Introduction
Label Description Library Introduction
Orthographic drawing view specific labels Orthographic drawing view identification labels Orthagraphic drawing - user input Displayable attribute messages Commodity code attribute messages Isometric drawing labels Report labels Clash management labels These labels are intelligent graphics with links to the material database. The Label Description Library Manager enables you to define the graphic parameters for a label (such as level, line weight, and color code) and to define the format of the label (what information comprises the label.)
Piping Assembly Library Introduction The Piping Assembly Library contains the piping assembly definitions which define the parameters necessary to place a piping assembly (group of components) automatically in the model. A Piping Assembly object library and text library which contain the definitions for basic assemblies are included in the product delivery.
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1. Introduction
The Label Description Library contains the definitions for the following label types used in PDS 3D:
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1.3
Reference Database Introduction A database is a collection of formatted data which conforms to a set of predefined rules. The Specification/Material Reference Database is composed of a set of tables (entities) which represent categories of data. A table is a defined set of attributes which describe an item, such as the Piping Commodity Data table. An attribute is a single type of information to be stored about an item, such as nominal diameter or end preparation. Each attribute has a column number in the database table and a name which describes the piece of information to be stored. The actual information stored in the database is referred to as the attribute value. This value is a fixed data type; it can be either numeric, alphanumeric, or code-listed. numeric data types can be either real (decimal) or integer. These attributes are used for quantitative values such as pressure or temperature. alphanumeric data types (also called character) are used for textual information such as component names or descriptions. code-listed data types are a special integer values which help standardize and speed up data entry. A code list is a set of acceptable values for a particular attribute which can be referred to by an index number. A code-listed attribute is an attribute whose value is defined using one of the selections from a particular code list set.
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Delivered Reference Data
1.4
Delivered Reference Data 1. Introduction
The following reference data is delivered in the reference database products for the corresponding practices (such as RDUSRDB or RDDINRDB). Library File Description
Object
Text
Physical Dimension Table Library
us_pcdim.l
us_pcdim.l.t
Piping Job Specification Table Library
us_pjstb.l
us_pjstb.l.t
Short Material Description Library
us_shbom.l
-
Long Material Description Library
us_lgbom.l
-
Specialty Material Description Library
us_spbom.l
-
For the DIN RDB substitute din_ for us_ in the listed library file names. The following reference data, which is not unique to any specific practice, is delivered in the PD Shell product in the \win32app\ingr\pdshell\lib directory. Library File Description
Object
Text
Graphic Commodity Library
pip_gcom.l
pip_gcom.l.t
Piping Assembly Library
assembly.l
assembly.l.t
Label Description Library
labels.l
-
Standard Note Library
std_note.l
std_note.l.t
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1.5
Reference Data Setup A project and all of its accompanying files must be defined with the Project Administrator before you can use the Reference Data Manager. Refer to the Project Administrator Reference Guide for information on Loading PDS 3D products. Editing the control script to identify the location of the project data. Setting up a project and creating the associated database schemas. Accessing the PDS 3D products remotely using NFS. In addition to the information specified in the Project Administrator Reference Guide, you should complete the following steps before using the Reference Data Manager. Load the appropriate Reference Data product (such as RDUSRDB for U.S. Practice or RDDINRDB for DIN Practice). Edit the pds.cmd file to identify the text editor to be used when revising reference data through the Reference Data Manager forms. You can specify any text editor that has been loaded on the workstation. The default setting for Windows NT systems is Notepad. $ENV {’PD_EDITOR’} = ’’;
Edit the pds.cmd file to define PD_COMMIT_INTERVAL to control the commit interval for use in loading specification data into the Material Reference Database. This has the same impact as adjusting the -c option in a risload command line. The default commit value is 25. Increasing this variable may improve performance. Identify the location of the Reference Data files as described in Reference Data Location, page 47.
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PDS Environment
2.
PDS Environment The PDS 3D software supports a variety of applications. All the supported applications use a common interface that is controlled by the PD Shell program. This ensures consistency across applications and minimizes the amount of time required to learn the product. The PDS 3D modules provide a simple user interface through extensive use of forms. The modules also provide an on-line Help capability for easy access to information while working in the product.
2. Environment
The PDS 3D software uses available nucleus tools such as MicroStation and FORMS. It supports standard software such as NFS, NQS, and RIS required to set up data across a network. This design facilitates the use of non-PDS tools such as relational databases and third party software. The PD_Shell Environment and all batch jobs in the PDS 3D products interface to Intergraph’s Network Licensing System.
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PD Shell The PD Shell program provides access to the various functions that are associated with the PDS 3D Modules. You can access the Plant Design System Environment form by Double-clicking the PD_Shell icon on Windows NT workstations. This executes a control script that defines all of the environment variables that are needed to run the product, and it identifies the location of the product files. These files can be located on the workstation or a server on the network. See pds.cmd in the Project Administrator Reference Guide for more information on this file. The script also activates the Plant Design System Environment form.
This form identifies the active project(s) and provides access to all the PDS functions.
Options Schematics Environment — Provides access to the PDS 2D modules that are used to create and modify piping and instrumentation diagrams, process flow diagrams, and instrumentation database records. Equipment Modeling — Provides access to the Equipment Modeling module, which provides an interactive graphics environment that is used to create and revise equipment model graphics and database information. FrameWorks Environment — Provides access to the FrameWorks module, which provides an environment that is used to create and revise structural models, create and revise structural drawings, and propagate structural models.
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PD Shell
Piping Designer — Activates an interactive command environment that is used to create piping and in-line instrumentation in the model; revise existing model graphics and database information; and verify the integrity of the data in the model. Electrical Raceway Environment — Provides access to the Electrical Raceway module, which provides an interactive environment that is used to create and revise raceway models and access raceway utilities. Piping Design Data Manager — Provides access to a set of options that are used to verify the integrity of the graphic and database information that is associated with a model.
Pipe Support Designer — Activates an interactive command environment that is used to create pipe supports in the model, and revise existing pipe support model graphics and database information. Pipe Stress Analysis — Activates a set of forms that are used to extract information from piping models for input to third-party pipe stress analysis products. Interference Manager — Activates a set of forms that are used to check for interferences among project models and to control approved interferences. Isometric Drawing Manager — Activates a set of forms that are used to extract isometric drawings from piping models and to review or plot the created isometric drawings. Drawing Manager — Activates a set of forms that are used to create and manipulate drawings and drawing views; provide access to the interactive graphics environment for drawings; and provide access to a plot manager and vector hiddenline manager. DesignReview Integrator — Activates a set of forms that are used to extract information to form label files for use in DesignReview and to review data from a DesignReview session. Report Manager — Activates a set of forms that are used to create and revise report format files and report on information in a project including Material Take-Off reports. Project Administrator — Provides access to a set of forms that are used to create a project, create and revise project files, define project seed data, and control the project. Reference Data Manager — Provides access to a set of forms that are used to control the reference data for a project including Piping Job Specification data, Graphic Commodity Data, Alphanumeric Commodity Data, Standard Note Library, Label Description Library, and Piping Assembly Library.
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2. Environment
Piping Model Builder — Enables you to create piping graphics from a nongraphics environment. This module is used with PD_Design to create an accurate 3D model of the piping network.
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Other Fields User ID — Used for access control. This field also sets the Review User ID for use in the Interference Manager module. If access control has been defined, you must key in a valid user ID as defined by your system manager to gain access to the projects. Refer to the Access Control Manger in the Project Administrator (PD_Project) Reference Guide, for more information on using access control. If access control has not been defined, no entry is required for this field. Password — Key in the password for the specified user ID. Project List Field — Displays the defined projects for the network and allows you to select the active project. The system lists all the defined PDS projects (2D-only, 3Donly, and 2D & 3D). An error is displayed if you select an option that is incompatible with the active project. For example, if the active project is a 2D-only project, you cannot access the the Interference Manager module. If access control has been defined, only those projects for which you have some level of access are displayed. Message Area — Displays prompts and messages that are associated with the active process. Error messages are displayed in red.
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PD_Shell Form Conventions
PD_Shell Form Conventions The following Conventions describe how to respond to the various buttons, lists, and prompts that make up the environments. The display size of forms and dialog boxes in the nonMicrostation graphics environment are independent of the size of the workstation’s display system. Most forms contain the same basic features: buttons, fields, text, and other gadgets. In general, anything you find on a form is called a gadget.
Selecting Options
For most of the forms with scrolling lists, you can double-click on a row to select and accept the data in that row. This performs the same action as selecting a row (which highlights) and then selecting the Accept button. You use the select action to select functions, access other forms, activate data fields, toggle buttons, select from lists, scroll through data displayed on the screen, and so on. The following summarizes other basic actions you use in the environments: Enter — When keying in any data in a key-in field, press the or key for the data to be entered into the system. You can also press or to move through a set of key-in fields. Delete — If you make a mistake while keying in text, press the key to erase character(s) to the left of the cursor.
Common Tools on the PD Shell Forms There are many gadgets in the environments that are common to most or all of the forms. The following describes these tools.
Standard Commands The PD Shell forms have a set of standard buttons in the upper right corner of most of the form windows. The available commands vary from form to form depending on the type of operation. The Help button activates on-line Help for the active form. Help remains active until you delete the Help window.
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2. Environment
You move through the PD Shell forms by selecting function buttons or other gadgets from the form. Select means to place the screen cursor (which appears as an arrow) on top of a screen gadget and press .
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The Shell button exits the active form and returns control to the base manager that is associated with the active form. For most forms this returns to the Plant Design System Environment form. The Top button exits the active form and returns control to the top form of the active branch. The Cancel button cancels or exits from the active form. Control returns to the immediately preceding form in the hierarchy. The Accept button accepts a selection or operation. Depending on the active form or option, the active form remains active so that you can repeat a similar operation or control returns to the preceding form. The Restart button clears any key-in fields on the form that have values you can modify. Scrolling List Some screen menus have a scrolling list of projects or applications. You need to scroll a list only if more options are available than can be displayed in the window. To scroll a list, select the arrow buttons on the side of the list. The list scrolls up or down depending on which arrow you select. The scrolling list has an arrow pointing up and an arrow pointing down. These arrows scroll lists line by line. There is a button that slides between these two arrows to indicate your position on the list. To page through the list, select the space above or below the sliding button. The list pages up or down accordingly. You can also select the slider and, while pressing , slide the button up or down the bar. The items scroll through the window as you move the button. The size and position of the button on the scroll bar is an indication of the number of lines and the relative position within the list. All commands that display a list of design areas or models order the list alphanumerically by the design area number or model number in ascending order. In some forms with scrolling lists, you can double-click on a row to select and accept the data in that row. This performs the same action as selecting a row (which highlights) and then selecting the Accept button.
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PD_Shell Form Conventions
Key-in Fields Screens that accept keyboard input have key-in fields. These fields are boxshaped and dark gray. You can select a key-in field and key in a new value. A bar cursor appears in the active key-in field. Key in your input, and press . To change a field, reselect the field and key in the new information. Key-in fields have a maximum number of characters depending on the item that is being defined. If you select a key-in field for a code-listed attribute, the system activates a form that lists the code list values for the selected field.
Display-List Boxes A display-list box is located at the end of some key-in fields. It lets you select data from a list instead of keying in information. For example, there is a display list associated with the Authorization key-in field shown. At the end of the field, there is a small box with horizontal dashes. When you select this display list box with the screen cursor, an associated list of valid input values displays. Select an item from the list to enter its value into the field. Shift Left and Shift Right buttons At the bottom of some key-in and display fields, there are two buttons marked with arrows. These buttons are called shift left and shift right buttons. Often, you can key in more characters than a field display shows. Shift Left moves the text display to the front of the field; Shift Right moves the text display to the end of the field. Toggle A toggle field on a screen menu enables you to select one of two possible choices, one of which is always displayed. Place a data point on the toggle field to toggle between the two choices. Roll-Through List A roll-through list shows one choice at a time of a list that can be several items long. Place a data point on the roll-through list to scroll through the available options. The option displayed is active.
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2. Environment
MicroStation requires lowercase characters for the file specification and path name of all design files. Therefore, the system automatically converts any input for the file specification and path name of a design file (such as a model or drawing) to lowercase before loading into the Project Control Database.
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Standard Window Icons When using this software in the CLIX environment, you can press along the edge of a form or any area not occupied by a button, key-in field, or other gadget, to display a box of icons. You can manipulate form windows just like any other workstation window. The following list defines the available window icons. Collapse/Restore Repaint
Pop-to-bottom Modify/Resize
Pop-to-top Restore Size
Batch Processes When you install the PDS 3D applications, the system creates the necessary batch queues for that application. Refer to Loading PDS Products in the Project Administrator Reference Guide for a listing of the batch queues. PDS 3D uses these batch queues to allow you to continue working in the environment while the system processes a request. Many of the batch processes can be delayed for submission at a specified time. When you submit a batch process the system sends an electronic mail message to the mail path of the default login reporting the jobs completion status. The mail message also includes any error log information.
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Help
Help On-line Help is a special feature of your application software. Help provides instant access to information from the application reference documents, such as command descriptions and explanations, prompt sequences, and much more. There are several avenues you can take to find information about a command or subject. For instance, Help provides A table of contents that lists subjects by topic and subtopic (in a hierarchy).
A glossary to help you become familiar with product-specific terms. The ability to move up, down, back, and forth through Help by using cross-references and links to primary and secondary commands. The ability to quickly search through Help for information on a specific subject or command.
When you first select Help, the Help Table of Contents is displayed in a pop-up window. Select a topic from this list or select a command from the menu to display an article in the pop-up window. Whenever possible, PDS Help is context sensitive. For example, if you select the help icon for a given form, Help that is specific to that form is displayed. The Help window has buttons that you can use to manipulate either Help or the window itself as follows:
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2. Environment
An alphabetized index of every command or subject that has been documented for the software.
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Scroll Bar — Moves up or down in an article that is displayed in the Help window. Help Command Buttons — Enable you to move around in the Help file. Cancel or File > Exit — exits Help and closes the Help window.
Operating Sequence 1.
Select the Help button from the command window or form. If you select Help while using a command, help on the active command is displayed. If no command is active, the table of contents is displayed.
2.
Use the command buttons or scroll bar to move around in Help. — OR — Exit Help.
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Reference Data Manager
3.
Reference Data Manager The Reference Data Manager provides access to the various functions associated with the PDS 3D Reference Database. Select the Reference Data Manager option from the PD Shell form.
3. Reference Data Manager
Select the option to be performed. Spec Writer — Used to create, modify, and delete information in the Material Reference Database using a forms interface. See Spec Writer, page 103. Piping Job Specification Manager — Used to create, modify, and delete information in the Material Reference Database using neutral files. See Piping Job Specification, page 55 and Piping Job Specification Manager, page 145. Piping Job Specification Tables — Used to create, modify, and delete information in the Piping Job Spec Table Library. See Piping Job Specification Tables, page 189 and Piping Job Specification Tables Command, page 239. Piping Job Spec Report Manager — Used to define and generate reports of data in the Material Reference Database. See Piping Job Spec Report Manager, page 154. Graphic Commodity Library Manager — Used to create, modify, and delete graphic commodity library data (Eden modules). See Graphic Commodity Library, page 254 and Graphic Commodity Library Manager, page 275. Physical Data Library Manager — Used to create, modify, and delete physical data (dimension tables) in object and text libraries. See Physical Data Tables, page 266 and Physical Data Library Manager, page 287.
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Material Description Library Manager — Used to create and modify alphanumeric commodity data. See Material Description Data, page 361 and Material Description Library Manager, page 376. Support Tutorial Definition Manager — Used to create, revise, and delete data in the Tutorial Definition Library. See Pipe Support Tutorial Definition Manager, page 437. Standard Note Library Manager — Used to create, revise, and report the code lists and standard notes associated with the PDS 3D modules. See Standard Note Library, page 449 and Standard Note Library Manager, page 453. Label Description Library Manager — Used to define the graphic parameters for a label (such as level, line weight, and color code) and to define the format of the label (what information comprises the label). See Label Description Library, page 465 and Label Description Library Manager, page 471. Piping Assembly Library Manager — Used to create, revise, and delete piping assembly definitions in the Piping Assembly Library. The Piping Assembly Language (PAL) enables you to define the parameters necessary to place a piping assembly (group of components) automatically in the model. See Piping Assembly Library, page 505 and Piping Assembly Library Manager, page 525. Table Checker — Used to verify that all the commodity spec tables, entries, and Eden modules for a piping materials class exist in the graphic data libraries for the project. See Table Checker Form, page 389. Reference Database Revision Manager — Used to create a set of reports for coordinating revisions in the Reference Database and the implied changes which are required in the model. See Reference Database Revision Manager, page 537. Reference Database Management Data — Used to define the filenames for Reference Database Files, graphic commodity data, dimension tables, and spec tables. You can define both approved or unapproved RDB data for each item. See Reference Database Management Data, page 48. Default Project Control Data — Used to define the default location for the source files used to load the RDB files (such as neutral files, program files, and report files). See Default Project Control Data, page 53.
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Data Security
3.1
Data Security The Reference Data Manager provides data security features for the following reference data libraries in the event of accidents such as, electrical power surges and network failures. These features also protect the libraries in the event that a library is being shared by multiple projects, and different users in different projects mistakenly attempt to revise one of the libraries simultaneously. Graphic Commodity Library Physical Data Library Piping Job Specification Table Library Short Material Description Library Long Material Description Library Specialty Material Description Library Standard Note Library Label Description Library Piping Assembly Library
If you are certain that the warning results from a previous unusual exit, make one of the following decisions. — If a corrupted library (including the corresponding source library and revision library) has been restored from a backup, select the accept option. — If you are concerned with the integrity of the library for any reason, select the exit option. Then restore the library, the corresponding source library, and the corresponding revision library to their previous state (before the last revisions). If you are aware that a different user may be revising that library within a different project, select the exit option. This feature requires that PDS users have write access to the directory in which the libraries reside. The Reference Data Manager will display an error message, if the user does not have privileges for write access to the applicable directory and the user will not be able to revise that library. When a PDS user exits a data creation or revision session, the Reference Data Manager verifies the integrity of the binary tree structure within the library. The system displays an error if the Reference Data Manager determines that an error exists in the binary tree structure. In this event, you should contact Intergraph immediately for assistance in repairing the library.
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3. Reference Data Manager
When you enter the Reference Data Manager to create, revise, or delete data in any of the these libraries, the system creates a temporary file for that library. This temporary file is named .c and will be created in the same directory location as the object libary. Once you successfully exit the applicable library manager, the system deletes the temporary file. If a PDS user is unable to exit the Reference Data Manager for any reason (such as a power failure), the system displays a dialog box when the next user enters the Reference Data Manager to revise that library. You must decide which of the following situations applies and respond accordingly.
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3.2
Reference Data Archival PDS includes a Project Archival Manager to provide archival and retrieval facilities for projects, including reference data. For more information about the Project Archival Manager, see Project Archival Manager in the Project Administrator Reference Guide. For specific information about archiving reference data, see Reference Data in the Project Administrator Reference Guide.
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Reference Data Location
4.
Reference Data Location This section describes the options used to define the location of the Reference Data files on the network. Reference Database Management Data — Defines the location for Reference Database Files, graphic commodity data, dimension tables, and spec tables. You can define both approved or unapproved RDB data for each item. See page 48. Default Project Control Data — Defines the default location for the source files used to load the RDB files (such as neutral files, language files, and report files). See page 53.
4. Reference Data Location
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4.1
Reference Database Management Data This option activates the Reference Database Management Data form used to define the filenames for Reference Database Files, graphic commodity data, dimension tables, and spec tables. You can define both approved or unapproved RDB data for each item.
Operating Sequence 1.
Select Reference Database Management Data from the Reference Data Manager form.
2.
Select RDB File Type Select the RDB file from the list of files. You can use the scroll arrows to scroll through the listed files. The system identifies the file for the selected field in the fields at the bottom of the form. There are no default settings for these files; you must define the applicable file locations before you can continue. Material/Specification Reference Database — This field identifies the Material Reference Database for the project. Refer to the Project Setup Manager in the Project Administrator Reference Guide for more information on this database. Piping Job Specification Table Library — This field identifies the location of the Piping Job Spec Table library.
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Reference Database Management Data
Short Material Description Library — This field identifies the library which contains the short bill-of-material description for all piping commodity items and the BOM description addenda for taps. Long Material Description Library — This field identifies the library which contains the long BOM description for all piping commodity items. The long BOM description is only used for requisitions. Specialty Material Description Library — This field identifies the library which contains the BOM description for engineered items, in-line instruments, and pipe supports. This library tends to be customer-specific. Standard Note Library — This field identifies the location of the standard note library. Label Description Library — This field identifies the location for the label description library. Piping Assembly Library — This field identifies the location for the Piping Assembly library. This library contains the symbol definitions for assemblies. Graphic Commodity Library — This field identifies the library which contains the Eden modules used to place components in the model. Physical Data Library — These fields identify the library files which contain the physical data tables for a range of geometric industry standards. Commodity Synonym Library — This field identifies the user-defined library which contains the map for translating the default piping commodity names used in the P&ID Task to names specified by the user in the Piping Job Specification.
3.
Key in any changes to the selected RDB files. Refer to Delivered Reference Data, page 31, for a listing of the delivered reference data files. If you specify an unapproved file, the system will use the unapproved file for all Reference Data Manager operations (such as revising entries in a library.) Refer to the Project Data Manager in the Project Administrator Reference Guide for information on setting the choice of data for a model file or drawing.
4.
You can select Approved –> Not Approved to copy the approved definition of the selected RDB file to the Not Approved fields. Select confirm to update the information.
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4. Reference Data Location
Orthographic Drawing Borders — This field identifies the drawing border files to be used when creating drawings. A set of border files are delivered to the directory win32app\ingr\pddraw\border. You must specify which style of borders is to be used.
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Refer to the individual managers for information on posting the unapproved information to the approved files. 5.
You can select Default All Library Locations to define a default location for all approved and all unapproved library files.
6.
You can select Copy All Standard Libraries to copy the delivered library files to a specified location.
7.
Select Accept following each change to the reference data to accept the specified file location. — THEN — Select Cancel to exit the form.
Options Default All Library Locations This option assigns a default network address, pathname, and file specification to the various Reference Database libraries for both the approved and unapproved libraries. You can override any of these default specifications by selecting the appropriate library and keying in the file information. Specify Default Nodename Key in a default network address and pathname to be used for all approved Reference Database libraries and a network address and pathname to be used for all unapproved libraries. The file specifications for all libraries are determined automatically on the basis of the industry practice and the following naming convention. When copying the Not Approved library to the Approved library, the copy will not occur if the approved library is the most recent or has the same date as the unapproved library.
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Reference Database Management Data
Library
Filename
Graphic Commodity Library Label Description Library Standard Note Library Piping Assembly Library Piping Spec Table Library Short Material Description Library Long Material Description Library Specialty Description Library Physical Data Library
pipe_gcom.l labels.l std_note.l assembly.l pjs_tbl.l short_bom.l long_bom.l spclty_bom.l _pcdim.l
The text to be used for the is determined in the following manner. Practice
Prefix
U.S. Practice European - DIN European - British Standard European - Practice A European - Practice B International - JIS International - Australian International - Practice A International - Practice B Company Practice
us din bs eua eub jis aus ina inb cmp
Copy All Standard Libraries
This option provides a new user with a simple method to create a Reference Database using RDB products delivered by Intergraph. This is not intended for use in a production environment. The following Reference Database libraries are copied from the PD Shell product. Graphic Commodity Library Label Description Library
Standard Note Library Piping Assembly Library
The following Reference Database libraries are copied from the applicable Reference Database product (such as, rdusrdb or rddinrdb). Physical Data Library Piping Spec Table Library Short Material Description Library
Long Material Description Library Specialty Description Library
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4. Reference Data Location
This option copies the delivered Reference Database libraries from the applicable product directories to the disk locations specified in the Reference Database Management data of the Project Control database.
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The system also copies the applicable Table Revision Management Libraries for the Piping Spec Table Library and Physical Data Libraries. The text to be used for the standard is determined in the following manner. Practice
Prefix
U.S. Practice European - DIN European - British Standard International - JIS International - Australian
us din bs jis aus
The list of available products is determined from the list of exported variables as specified in the pds.cmd shell script. Therefore, this command presently searches for the following exported variables: Product
Practice
RD_USRDB RD_DINRDB RD_BSRDB RD_JISRDB RD_AUSRDB
U.S. Practice DIN British Standards JIS Australian
The file specification recorded in the Project Control Database, and not that of the library in the delivered product, will be used for the destination library. If the RDB product resides on a remote server (or workstation), you must manually mount the directory that includes the RDB product and change the exported variable in the pds.cmd shell script accordingly. The system will display an error message for any of the following conditions. Any of the active Reference Database libraries for the project are in use (locked). None of the libraries are copied. The network address for any of the active Reference Database libraries for the project are undefined. None of the libraries are copied. The network address and path name for any of the active Reference Database libraries for the project cannot be mounted. None of the subsequent libraries are copied.
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Default Project Control Data
4.2
Default Project Control Data This option defines the default location for common reference files used by the project (such as neutral files, report files, and library files). You can also change these file locations during the operation of the applicable managers.
Operating Sequence Select Default Project Control Data from the Reference Data Manager form to define the default location for the RDB source files.
2.
Select the field to be defined and key in the location of the source files and the associated node name.
4. Reference Data Location
1.
Piping Eden Path / Node — The default location for the Eden source files. Dimension/Spec Table Path / Node — The default location of the Dimension Table and Spec Table source files. Piping Spec Path / Node — The default location for the neutral files to be used to load the Specification/Material Reference Database and Material Description Libraries. Assembly Path / Node — The default location for the Piping Assembly Language source files. Standard Note Library Path / Node — The default location for the Standard Note (code list) source files.
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Equipment Eden Path / Node — The default location for the Equipment Eden source files. TDF Table Path / Node — The default location for the Equipment table definition files. Model Builder Path / Node — The default location for the model builder language source files. 3.
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Accept any changes to the Project Control Data.
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Piping Job Specification
5.
Piping Job Specification The Piping Job Specification (PJS) defines the characteristics, properties, design standards, and company practices associated with piping commodity items, piping engineered items, and instruments. When you select an item for placement in the model, the system uses the active parameters (such as piping materials class and nominal diameter) to search the Piping Job Specification for the selected item. Then the system reads the PJS for the parameters required to define the item.
5. Piping Job Specification
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5.1
Material Reference Database Structure The Material Reference Database contains a set of tables which define the Piping Job Specification data. The numbers in parentheses indicate the database table number. Piping Materials Class Data (201) - see page 62. Piping Commodity Specification Data (202) - see page 67. Piping Specialty Specification Data (203) - see page 77. Instrument Component Specification Data (204) - see page 81. Tap Properties Data (205) - see page 85. Piping Commodity Size-Dependent Material Data (211) - see page 88. Piping Commodity Implied Material Data (212) - see page 91. Reference Database Revision Management Data (213) Component Insulation Exclusion Data (231) - see page 95. Flange Insulation Exclusion Data (232) - see page 98. Piping Construction Tolerance Exclusion Data (233) - see page 101. The Piping Commodity Specification Data is linked to the Piping Materials Class Data. The Reference Database Revision Management Data table is totally systemdefined. It stores the revision dates for the other database tables in the Material Reference Database. The revision dates are updated automatically when you use the Piping Job Spec Manager to load, revise, or delete data in these database tables.
Attribute Types The following conventions are used to designate the field type for database attributes.
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character(n)
alphanumeric field n characters in length
integer
long (double word) integer
short
short integer
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Material Reference Database Structure
double
real (floating point) value
standard note nnnn
Standard Note Type for code-listed attribute
Code-Listed Attributes A code-listed attribute is an attribute whose value must be defined using one of the selections from a particular code list in the Standard Note Library. In the following database descriptions attributes which are code-listed are identified by a standard note number at the end of the line following the field type description. For example, the line 6. fluid_code
, character(6)
, SN 125
indicates that fluid_code is defined in terms of code list numbers belonging to Standard Note 125, Fluid Code/Connector Type. A possible entry for this attribute would be 197 for chlorine gas (GCL). Refer to Appendix B for a listing of the code list sets associated with PDS 3D.
Connect Point Data The Piping Commodity, Piping Specialty, and Instrument database tables classify connect point dependent data about a component in terms of green and red connect points. The following conventions are used to coordinate the two sets of data: If data is only shown under the green connect point, it applies to all ends of the component. If a component has ends with different nominal diameters (regardless of other end properties) the larger nominal diameter is designated as the green connect point. If a component has ends with the same nominal diameter but other end properties which differ, the following rules apply: — If the ends have different termination types (regardless of the values for schedule/thickness) the end(s) whose end preparations have the lowest codelist number are designated as the green connect point.
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5. Piping Job Specification
— If the termination types are the same but the values for rating, schedule, or thickness differ, the "stronger" ends(s) are designated as the green connect point.
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NPD Units Nominal piping diameter is defined as a special coded number (NPD units) with the following formula. For metric units, the coded number equals the size (in millimeters) For English units, the coded number equals the size (in inches) times 32 plus 5000. This allows nominal piping diameter to range from 1 mm to 5000 mm in 1 mm increments for metric units, and to range from 1/32" to at least 200" in 1/32" increments for English units.
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Neutral File Input
5.2
Neutral File Input A neutral file is an ASCII text file used to load information into the the Material Reference Database. The neutral file must conform to the following rules: There must be an entry for each user-defined parameter in the Material Reference Database. For certain attributes you can use a dash (-) to indicate that a default value be used. The SEQUENCE statement can be used to define the order of entries in the neutral file. The system_unique_no attribute is never user-defined. Therefore, it should not be included in the neutral file data or in the list of attributes defined by the SEQUENCE statement. Each entry (attribute) can begin at any point along the input. You can set the spacing between each entry by specifying SINGLE_SPACING or DOUBLE_SPACING as the first item in the file. If you do not define the spacing, double spacing is used. For single line comments, place an exclamation point (!) at the beginning of the line. All comments are disregarded by the system. You can place blank lines anywhere in the file for readability. These lines do not effect the information being copied. You can use any of the three PDS conventions to enter fractional Nominal Piping Diameters. The entries 2-1/2 2.5 2 1/2 are all equivalent ways of entering the same figure. If you use the SINGLE_SPACING option 2 1/2 can be used only if enclosed by single quotes (’2 1/2’) You can use both metric and English units. The default system of units must be declared once in the beginning and each time the default system is changed. Entries are automatically interpreted as English. To declare the system of units add the appropriate units marker to the entry:
The Tap Properties Table must include the Table Name along with other data by using the TABLE statement.
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5. Piping Job Specification
mm for metric " for English
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SEQUENCE Statement The SEQUENCE statement is an optional statement which can be used to define the order of the parameters in the neutral file. If the SEQUENCE statement is used it must be placed before any entries. The SEQUENCE statement can only be used once per file. If the SEQUENCE statement is omitted, it is assumed that the parameters appear in the order defined by PDS. Format SEQUENCE= P1 P2 P3 P4 ... Pn where: SEQUENCE=
keyword which can be entered in either upper or lower case letters.
P1,P2,...Pn
parameters 1 through n. The values of P1...Pn are the parameter numbers assigned by PDS, and their position tells the system the order in which to enter them. At least two spaces must separate the keyword and each parameter.
Examples SEQUENCE=
5
3
4
1
2
The first parameter read corresponds to PDS parameter #5, the second to PDS parameter #3, the third to PDS parameter #4, the fourth to PDS parameter #1, and the fifth to PDS parameter #2. You can use the convention *Pn to indicate an attribute that is not defined in the neutral file. All of the *Pn attributes should be placed at the end of the SEQUENCE statement following the list of included attributes. For example, SEQUENCE= 2 3 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 *4 *5 *21 *22
ORDER Statement Neutral files translated from VAX PDS data may contain an ORDER statement rather than a SEQUENCE statement. This statement performs the same function as the SEQUENCE statement except that it lists the order of the attributes as they were defined in the VAX Piping Job Specification Database.
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Neutral File Input
TABLE Statement The TABLE statement defines a table name to be associated with a particular set of data. The active table name remains unchanged until another TABLE statement is encountered. The TABLE statement can be used more than once in a neutral file. Format TABLE= table_name where TABLE= table_name
keyword which can be entered in upper or lower case letters. the name of the table associated with the following data.
There must be at least one/two spaces (depending on the default spacing selected) between the keyword and the table_name. For example, the Tap Properties Table below defines two tables (C001, and C002) by using the Table keyword to segregate the data for each table being defined. Double_Spacing Order= 2 3 5 4 6 7 ! By=GJH Ckd By=RJW
Rev=2
Date=12-May-1995
Table= C001 ! Description= SWE CL3000 default taps ! Diam Opt Rating Prp Sc/Th Tap Code 0.375 691 591 NREQD E$37591XXX > 0.5 1 CL3000 421 NREQD E$50421064 0.5 691 591 NREQD E$50591XXX : : 30 691 591 NREQD E030591XXX 32 691 591 NREQD E032591XXX 34 691 591 NREQD E034591XXX 36 691 591 NREQD E036591XXX 42 691 591 NREQD E042591XXX 48 691 591 NREQD E048591XXX
5. Piping Job Specification
Table= C002 ! Description= SWE CL6000 default taps ! Diam Opt Rating Prp Sc/Th Tap Code 0.375 691 591 NREQD E$37591XXX > 0.5 1 CL6000 421 NREQD E$50421072 0.5 691 591 NREQD E$50591XXX : : 34 691 591 NREQD E034591XXX 36 691 591 NREQD E036591XXX 42 691 591 NREQD E042591XXX 48 691 591 NREQD E048591XXX
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5.2.1
Piping Materials Class Data (201) The piping materials class data is independent of nominal piping diameter and commodity item. A piping materials class defines a classification of components based on design data and service limits. Much of the design data is stored in tables so that common information can be accessed by more than one piping materials class. The Piping Materials Class Data table contains 23 attributes. 1.
system_unique_no
2.
piping_mater_class , character(16)
, integer
This attribute identifies the service number, spec class, spec name, or spec number. 3.
revision_no
, character(2)
This attribute identifies the revision number for the data in the piping materials class. It is user-defined and is not updated automatically when the piping commodity data for that piping materials class is revised. The revision number of the unapproved Material Reference Database is incremented only, when you specify a new revision number in the neutral file. The revision number of the approved Material Reference Database is updated to that of the unapproved Material Reference Database, when the unapproved data is posted to the approved Material Reference Database. 4.
version_no
, character(2)
This attribute represents the version number, as determined by the system, for the data in this piping materials class (including the Commodity Item data). The version number starts with A and is incremented (B,C,D,...) when you revise the piping materials class. This attribute is under the complete control of the system. The Piping Job Spec Manager increments this attribute when the piping commodity data for that piping materials class is revised or reloaded. When that piping materials class is posted from the unapproved to the approved Material Reference Database, the version number for that piping materials class is reset to A in the unapproved Material Reference Database. 5.
revision_date
, character(10)
This user-defined attribute can be used to define a date for the latest revision to the data in a piping materials class. 6.
fluid_code
, character(6)
, SN 125
This attribute can be used to define the type of fluid for which the piping materials class is intended.
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Piping Materials Class Data (201)
You can specify a single fluid code value (such as 521 for process) from code list set 125. the name of a fluid code table to define a set of fluid code values. Refer to Fluid Code Table, page 214, for more information. To use the specified fluid code(s), you must also set the Fluid Code Control toggle to Yes on the Piping Data Control form of the Project Data Manager. Refer to the Project Administrator (PD_Project) Reference Guide for more information on this form. 7.
mater_of_construct , character(6) This attribute defines the materials of construction class for the piping materials class. This code has a detailed definition outside the scope of PDS that represents the decision of the Project Metallurgist regarding the piping system. It is required for reporting and making matches and comparisons with values for this parameter from the Piping Design Database. This parameter includes the material code.
8.
corrosion_allow
, double
This attribute defines the corrosion/erosion allowance that applies to the piping materials class. It is required for reporting and to calculate the wall thickness of piping components whose thickness is not specifically included in the piping materials class. 9.
mat_description
, short
, SN 148
This code-listed attribute is a generic description of the materials used for this piping materials class (such as carbon steel). This attribute is only used for reporting. 10.
service_lim_table
, character(6)
This attribute identifies the table used to determine maximum pressure as a function of temperature. This table includes the pressure and temperature sets that form the boundary for which the commodity items, engineered items, and instruments included in this piping materials class are suitable (unless you define a lower maximum temperature limit for a specific commodity item). You must insure that all commodity items within the piping materials class are acceptable within the boundary of this table.
11.
diameter_table
, character(6)
This attribute identifies the nominal piping diameter table used to verify valid nominal piping diameters in this piping materials class. Refer to Nominal Piping Diameters Table, page 194, for more inforamtion.
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5. Piping Job Specification
Refer to Temperature and Pressure Service Limits Table, page 191, for more information on this table.
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12.
thickness_table
, character(6)
This attribute identifies the thickness data table used in piping wall thickness calculations for this piping materials class. Refer to Thickness Data Tables, page 197, for more information. 13.
materials_table
, character(6)
This parameter defines the materials data table used to determine the material properties required for piping wall thickness calculations in the piping materials class. Refer to Materials Data Table, page 200, for more information. 14.
thickness_equation , character(6) This attribute identifies the default piping wall thickness equation to be used for this piping materials class. If a schedule/thickness parameter for an item specifies the default calculation, then this equation is used to perform the piping wall thickness calculation. Refer to Wall Thickness and Branch Reinforcement Equations, page 203, for more information.
15.
branch_table
, character(6)
This attribute identifies the branch insertion table used to determine the name of the branch commodity item to be used for tee and lateral branches. The item name is determined as a function of branch geometry, run size, and branch size. The output of the branch table is the item name of a commodity item (AABBCC code). Refer to Branch Insertion Tables, page 208, for more information. 16.
tap_data_table
, character(6)
This attribute defines the name of the tap properties table which includes those parameters required to define a tap on a specific commodity item. Refer to Tap Properties Data (205), page 85, for more information. 17.
vent_drain_macro
, character(6)
This attribute is not currently used by the PDS software. Several vent and drain definitions are contained in the delivered Piping Assembly Library. 18.
gasket_separation
, character(8)
This attribute is used to determine the actual gap that is assumed between seating surfaces of two mating bolted ends. It can coincide with, but is not necessarily the compressed gasket thickness. You can override this value during a design session by changing the type of gasket that applies to the joint. (You cannot override this value by defining a specific gasket gap override value.) This attribute exists as alphanumeric data.
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Piping Materials Class Data (201)
A value with all numeric characters is interpreted as a gasket separation value in the physical subunits specified for the model. All other values are assumed to identify a table name for gasket separation data as a function of nominal piping diameter in the Piping Graphic Commodity Library. Refer to Gasket Separation Table, page 212, for more information. Refer to the description of gaskets in the PDS Piping Component Data Reference Guide for more details. 19.
standard_note_no_a , short
, SN 499
20.
standard_note_no_b , short
, SN 499
These code-listed attributes provide the index numbers to CL499 for notes that apply to this piping materials class. The input to the Standard Note Library is the note number. The output is the free- format text which forms the standard note. In the delivered data, note numbers 1 through 199 are allocated for defining the PJS. 21.
revision_mngt_date , integer This system-defined attribute identifies the date of the latest revision for the data in this piping materials class.
22.
bend_deflect_table , character(6) This attribute identifies the Bend Deflection Table to be used for this piping materials class. This attribute is useful for defining specs for underground piping. If this column is undefined (blank), the system will use the default Bend Deflection Table specified in the Type 63 data through the Project Data Manager. Therefore, you need not define a Bend Deflection Table for each piping materials class in the Material Reference Database. Likewise, you need not revise any existing neutral files to include this column. Note that the Bend Deflection Table name in the Piping Materials Class data is limited to 6 characters to be consistent with the other tables referenced in this data. The maximum length of the default Bend Deflection Table name, as specified with the Project Data Manager can be as many as 20 characters.
23.
pipe_length_table
5. Piping Job Specification
Refer to Bend Deflection Table (G04), page 219, for more information. , character(6)
This attribute identifies the Pipe Length Threshold Table to be used for this piping materials class. This attribute is useful in defining specs for underground piping. If this column is undefined (blank), the system will use the default Pipe Length Threshold Table specified in the Type 63 data through the Project Data Manager. Therefore, you need not define a Pipe Length Threshold Table for each piping materials class in the Material Reference Database.
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Note that the Pipe Length Threshold Table name in the piping materials class data is limited to 6 characters to be consistent with the other tables referenced in this data. The maximum length of the default Pipe Length Threshold Table name, as specified with the Project Data Manager can be as many as 13 characters. Refer to Pipe Length Threshold Table (G07), page 222, for more information.
Neutral File Format The following is a sample neutral file for the Piping Material Class database table. Entries in this table should be sorted alphanumerically by Piping Materials Class. The Sequence= keyword in a piping materials class data neutral file does not require *21 for the revision management date. Any previously created piping materials class data neutral files will not require any revision as a result of this change.
Sample Files A sample neutral file for US practice is delivered in the file \win32app\ingr\rdusrdb\spec_data\classes.pmc. A set of sample files depicting various options are delivered in the \win32app\ingr\pddata\sample\data directory. bend_tbl.pmc equiv_npd.pmc fluid_code.pmc fpipe.pmc
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gasket.pmc gskt_tbl.pmc metric_npd.pmc
pharm.pmc piplen_tbl.pmc thickness.pmc
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Piping Commodity Specification Data (202)
5.2.2
Piping Commodity Specification Data (202) The Piping Commodity Specification Data defines all the components, pipes, bolts, and gaskets associated with a particular Piping Materials Class. It defines the standard components found in a manufacturers catalog (commonly referred to as off-the-shelf components). Because the Piping Commodity Specification Data is linked to the Piping Materials Class, a separate set of commodity items must be defined for each Piping Materials Class. Information for connect point data is defined in terms of two types of connect points known as green and red connect points. Refer to Connect Point Data, page 270, for more information on green and red connect points. The Piping Commodity Specification Data table contains 28 attributes: 1.
system_unique_no
2.
piping_mater_class , character(16)
, integer , index 1
This attribute identifies the Piping Materials Class for the piping commodity. 3.
commodity_name
, character(6)
This attribute identifies the commodity item name. This can be a PDS commodity item name. Refer to the PDS Piping Component Data Reference Guide for more information on item names. a Piping Job Specification access name. If you do not use the AABBCC code, you must define a Commodity Synonym Library for proper communication with the P&ID Task. The PDS commodity item names are also used with the delivered Place Component forms. If you use a different code, you should create a forms customization file as defined in the Piping Designer. 4.
option_code
, short
, SN 400
This code-listed attribute identifies the option code which determines the search criteria. This parameter enables you to request that the system retrieve the primary commodity item, a secondary commodity item, or another special option from the Piping Job Specification.
Option codes 4001 to 4010 are used to specify manual input of bend data for pipe bends.
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5. Piping Job Specification
This parameter is used as a commodity override in Piping Design. You can select the unique options (as defined in CL400) from a form. If no option is specified at placement, this attribute defaults to option 1 (primary commodity item). Option 2 is reserved as the secondary commodity item.
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Option codes 4500 to 4999 are reserved for company practice (user-defined). Option codes 5000 to 5999 are used to refer to implied components. 5.
maximum_temp
, double
This attribute is used if the commodity item is temperature dependent. It represents the maximum temperature for which this commodity item is acceptable. When a commodity item is retrieved from the Piping Job Specification, the system verifies that the normal operating temperature, the alternate operating temperature, the normal design temperature, and the alternate design temperature are less than this maximum allowable temperature. If this maximum is exceeded by any of these temperatures, the system automatically searches for another occurrence of the same commodity item. For gaskets, to help determine the gap thickness at bolted joints, the maximum temperature value is used as an input to the Gasket Gap Table. Proper entry of temperature values in the PJS assists the definition of gap thicknesses when gaskets with different gap thicknesses are used in the same piping materials class. If you specify the default value (-9999), no test is performed. Any reports created from the Piping Job Specification depict this default value as alphanumeric blanks. The order in which entries of the same piping commodities with different maximum temperature values are made in the PJS (PDtable_202) is not considered by the system; however, these entries must have the same option code in order to be considered by the commodity selection in the Place Component command. When you do define the piping commodity, a maximum temperature value must be defined for each entry or an error message is displayed. To define the highest maximum temperature for the same piping commodity, set the maximum temperature equal to or greater than the maximum temperature of the spec limits table for the applicable piping materials class instead of using an undefined value (’-’). 6.
gcp_from_nom_diam
, short
(NPD Units)
7.
gcp_to_nom_diam
, short
(NPD Units)
These coded attributes identify the range of nominal piping diameters (lower bound to higher bound) for the green connect point (first size) in NPD units. The to value must equal or exceed the from value. These values are not necessarily the same as the range in Tables 211 and 212. The applicable NPD value specified at placement is used to search for the suitable component in the Piping Job Specification. The default system of units (" for inches, or mm for millimeters) must be declared once in the beginning and each time the default system is changed. If no units are given, the value is automatically interpreted as inches. 8.
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gcp_end_prep
, short
, SN 330
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Piping Commodity Specification Data (202)
This code-listed attribute identifies the end preparation for the green connect point. The system determines the termination type based on the range of values 2 - 199 bolted terminations 300 - 399 male terminations 400 - 599 female terminations You can define end compatibilities by using the End Preparation Compatibility Table. (Refer to the Project Data Manager in the Project Administrator Reference Guide.) 9.
gcp_rating
, character(8)
This attribute identifies the pressure rating for the green connect point. This parameter exists as alphanumeric data. The system interprets the first set of sequential numeric characters as being the pressure rating value. Ratings can be expressed in any of the following formats: CLxxxx, xxxx#, or OTxxxx. However, table entries and file names representing the rating exclude the CL, #, or OT characters. This enables the same table to be used regardless of how the rating is defined. In the delivered PJS, these rating formats are used in accordance with the following criteria: CLxxxx refers to an ANSI or API pressure rating xxxx# refers to a pressure rating defined by an organization other than ANSI or API. OTxxxx refers to the rating of a connect point that meets the applicable ANSI or API rating geometrically but not from a pressure carrying standpoint. An example is a valve supplied with flanged ends that meets the bolting pattern of ANSI CL150 pressure rating but has pressure carrying characteristics different from those of that ANSI rating. For bolts and gaskets, you must use a numeric pressure rating (do not use the characters CL, #, or OT). If any character entries are encountered, the system will be unable to locate the proper information.
If the rating in the PJS is expressed in terms of alphabetic characters only, the system uses the characters in accessing the data tables. The names of the data tables include all the alphabetic characters included in the PJS. GRAVHD can be used to identify the rating for components rated to sustain a nominal fluid head. This value can be used in the PJS and in the data tables.
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5. Piping Job Specification
Female ends for plastic pipe are usually defined in terms of schedule/thickness and not in terms of rating. To make female ends for plastic pipe follow the rules for other female ends, the applicable schedule/thickness is used as the value for rating. If such rating values consist of alphanumeric characters, the system strips all alpha characters from the rating value and uses only the numeric values in accessing the applicable tables.
________________ Reference Data Manager Reference Guide — April 2002
OTHER can be used to identify a non standard rating value. NONE can be used to identify the rating for components whose ends would normally require the attribute rating as part of the table name, but for which a rating does not apply. This value can be used in the PJS and in the data tables. 10.
gcp_sch_thk
, character(8)
This attribute identifies the schedule thickness value for the green connect point. This parameter exist as alphanumeric data. (Refer to Wall Thickness and Branch Reinforcement Equations, page 203, for more information on this attribute.) In order of preference, schedule and thickness are expressed in terms of: A generic schedule such as S-STD, S-XS and S-XXS. If a schedule name exceeds the provided field length (for example S-SDR13.5) it is defined in terms of its wall thickness. A specific schedule such as S-40, S-40S and S-80. NREQD is used in cases where all of the following conditions apply: — The thickness value is not required in purchasing the component. — Empty weights are not significantly affected by actual thickness values. — Either stress analysis is not applicable or, if applicable, the component is to be considered infinitely rigid in stress analysis calculations. A value with all numeric characters is interpreted as a wall thickness value in the same physical units as nominal piping diameter. To insure compatibility between the PJS, data tables, and wall thickness calculations, thickness is expressed in the form: .xxxx if the thickness is less than 1 inch x if the thickness is an even inch x.xxx if the thickness is 1 inch or larger Trailing zeroes are not included. Decimal points are not included for numbers without decimals. An asterisk (*) followed by a name (of the form Cyyy) defines the specific calculation or table lookup to be used for wall thickness. Refer to Wall Thickness and Branch Reinforcement Equations, page 203 for a more detailed description of the naming conventions for these calculations. MATCH indicates the need to match the thickness of a component to that of the pipe of the same diameter and of option 1. 11.
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gcp_table_suffix
, short
, SN 576
________________
Piping Commodity Specification Data (202)
This code-listed attribute is used to further reference the source of the generic dimensional data, such as flange data or piping outside diameter data. This attribute is also referred to as the table suffix. For AMS standards, it represents the table suffix for the green connect point. For DIN standards, it represents the piping outside diameter selection flag (reihe number) for pipes and fittings. 12.
rcp_from_nom_diam
, short
13.
rcp_to_nom_diam
, short
These coded attributes identify the range of nominal piping diameters (lower bound to higher bound) for the red connect point (second size). The to value must equal or exceed the from value. These values are not necessarily the same as the range in Tables 211 and 212. For a full size component, you should set these parameters to - (hyphen). In cases such as a concentric reducer or weldolet, this value must be less than the corresponding green value. 14.
rcp_end_prep
, short
, SN 330
See gcp_end_prep. 15.
rcp_rating
, character(8)
See gcp_rating. 16.
rcp_sch_thk
, character(8)
See gcp_sch_thk. 17.
rcp_table_suffix
, short
, SN 577
This attribute is used to further reference the dimensional data for a specific component. For AMS standards, it represents the table suffix for the red connect point.
A parametric definition is used when connection graphics are required in the model and orthographic drawings. 18.
commodity_code
, character(16)
The commodity code is a user-assigned code that together with the NPD and schedule/thickness uniquely defines the component. It defines the customer’s commodity code (or part number). This attribute is the index into the Material Data Tables and the Material Description Library. The commodity code can be defined in one of three ways:
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5. Piping Job Specification
For DIN standards, it represents the built-in length selection flag (or reihe number) for valves and wall thickness selection flag for pipes and fittings.
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Commodity codes with neither an * or a + prefix, indicate a commodity item that has no associated implied components. Commodity codes prefixed by an *, indicate a commodity item (primary component) which has one associated implied component (such as a lap joint flange and stub end). For more information on defining * implied items, refer to the PD_Report User’s Guide. It is not recommended that specification implied (*) items be generated by size change components (i.e. reducers, reducing flanges, etc.) as the NPD assigned by the system for the implied component can be either the larger or smaller (green or red) NPD of the implying item based on how the system traces the line. Commodity codes prefixed by a +, indicate a commodity item (primary component) which has one or more associated implied components as defined in Table 212. The default length for a commodity code is 16 characters, but you can modify this length if needed. This value is specified in two files: design.ddl and reference.ddl. To customize the character length, modify the design.ddl file as follows: In table 34 (Piping Component Data), modify the value in column 8. In table 50 (Piping/Tubing Data), modify the value in column 12. Modify the reference.ddl file as follows: In table 202 (Piping Commodity Specification Data), modify the value in column 18. In table 211 (Piping Commodity Size-Dependent Material Data), modify the values in column 2 and column 7. In table 212 (Piping Commodity Implies Material Data), modify the values in column 2 and column 7. When you modify these values, set the character limit to be one more than the number of characters you actually want in the commodity code. This is necessary for you to add a * or + prefix if needed. For example, to create a 20-character commodity code, set the specified values to 21. You must make these modifications before the project is created. For valves, the commodity code also defines the name of the dry weight table (required for stress analysis). For large diameter valves (25"+) it is used to build the name of the operator dimension table.
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Piping Commodity Specification Data (202)
19.
model_code
, character(6)
This attribute identifies the specific item name for generic bends, spec flanges, or spec valves. Each model code is classified by -
Item name option size ranges end preparations ratings
The model code includes the definition of the graphic representation of the component in the piping model. Depending upon the circumstances: One or more model codes can be assigned to to a single Item Name (for example, GAT, GATR, and GATF are all used for 6Q1C01). The same model code can be assigned to different Item Names. For gaskets, this attribute can be used to prioritize gasket entries in the Piping Materials Class. The priority is set with a numeric value (integer or decimal) greater than zero. Non-numeric values are ignored by MTO and not considered to be a priority selection. The smaller the value the higher the priority. A value of 999999 is interpreted as an undefined priority. 20.
PDS_sort_code
, character(6)
This field can be used to specify the length (in subunits) for Purchased length pipe, or to specify the gasket diameter for gaskets. The gasket diameter table is used if the pds_sort_code for the gasket spec entry is set to _GKT. The system uses the NPD to determine the gasket inside and outside diameters. If the pds_sort_code for the gasket spec entry is set to "_GKT", the gasket outside and inside diameters are generated using the table gasket_commodity_code_GKT.TBL. If the pds_sort_code for the gasket spec entry is not "_GKT", the gasket outside diameter is equivalent to the NPD of the rated component and the gasket inside diameter is undefined. 21.
modifier
, double
For pipe bends, it defines the bend radius of the pipe in terms of the numeric factor by which the nominal diameter of the pipe is to be multiplied to obtain the bend radius. For pipe, it defines the joint quality factor (E) times 100 to be used during branch reinforcement calculations in those cases where the wall thickness is not calculated.
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5. Piping Job Specification
This attribute is used for pipe bends, elbows, miters, and valves. It has various uses depending on the type of commodity item as defined below.
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For orifice flanges and drip ring tees, it defines the number of taps to be provided. A value of 1 defines a single tap. A value of 2 defines 2 taps, 180 degrees apart. A value of negative 2 (-2) defines 2 taps, 90 degrees apart. For nippolets and nipples, it defines the length of the component. For reinforcing pads and welds, it defines whether data about the component is to be derived from tables in the system (0) or from the user by prompting (1). For gaskets, it defines the gasket thickness to be used in procuring the gasket. This is the actual gasket thickness for MTO reports - not the compressed gasket thickness (gasket separation), which is derived from the Piping Materials Class data. For bolts, it defines whether the bolt is a stud bolt (0 or positive), or machine bolt (negative). The absolute value of this modifier, which ranges from 0 to 5, determines the applicable bolt extension. For valves, it represents the code list number from CL550 (operator/actuator type) which defines the symbol description and the source of the physical data for the valve operator. If this value is a negative number (such as -3) the operator is not displayed when placing the component. 22.
geometric_standard , short
, SN 575
This code-listed attribute identifies the source of the data (which is usually an industry standard, such as ANSI, ISO, or DIN, or a company standard) from which the specific geometry of the commodity item can be deduced. This parameter represents the vendor or industry standard, and the material if either affects the dimensions of the commodity item. Code list numbers 2-6999 are reserved for geometry standards that apply to US piping practices. Numbers 7000-27999 are reserved for geometry standards that apply to European piping practices. Numbers 28000-31999 are reserved for specific company practices. 23.
weight_code
, short
, SN 578
This code-listed attribute defines the weight code for the component. It determines the table to be used in finding the dry weight of the component. It is required for those cases where material causes the dry weight data but not the dimensional data to differ for a specific geometric industry standard. 24.
fabrication_cat
, short
, SN 180
This code-listed attribute identifies the shop/field fabrication and purchase status of a component. It defines how the component was supplied and how the component was fabricated (for example, Shop Supplied, Field Fabricated). 25.
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materials_grade
, short
, SN 145
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Piping Commodity Specification Data (202)
This code-listed attribute identifies the material code, specification, grade-temper, and joint efficiency for the component. This data is used in wall thickness calculations. It can also be used to access physical data in the Physical Data Library. 26.
standard_note_no_a , short
, SN 499
27.
standard_note_no_b , short
, SN 499
These code-listed attributes provide index numbers to standard notes in standard note type 499 that apply to this commodity item. The input to the Standard Note File is the note number. The output is the free- format text which forms the standard note. In the delivered data, note numbers 200 through 599 are allocated for piping commodity items. 28.
input_form_type
, short
, SN 990
This code-listed attribute defines the type of input form to be used to define data with the Spec Writer command.
Neutral File Format The following is a partial listing of the sample neutral file for the Piping Commodity Specification Data. Entries in this table should be sorted alphanumerically by commodity_name. The Sequence= keyword in a piping commodity data neutral file does not require the *2 for the piping materials class name. Any previously created piping commodity data neutral files will not require any revision as a result of this change.
5. Piping Job Specification
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Sample Files A set of neutral file for US practice are delivered in the files \win32app\ingr\rdusrdb\spec_data\*.pcd (one for each piping materials class specified in the classes.pmc file). A set of sample files depicting various options are delivered in the \win32app\ingr\pddata\sample\data directory. bend_tbl.pcd equiv_npd.pcd fluid_code.pcd fpipe.pcd
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gasket.pcd gskt_tbl.pcd metric_npd.pcd pharm.pcd
pharmf.pcd pharmk.pcd piplen_tbl.pcd thickness.pcd
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Piping Specialty Specification Data (203)
5.2.3
Piping Specialty Specification Data (203) This database table contains data for a specific specialty item. It is used to define those specialty items which are used frequently by a particular company or installation. The specialty items are defined for the entire project, they are not partitioned by Piping Materials Class. The Piping Specialty Specification Data table contains 26 attributes. You can also place specialty items interactively in the model by defining the necessary parameters at the time of placement. No entries in the PJS database are required for these interactive definitions. Refer to the Piping Design Graphics Reference Guide for more information on placing specialty items.
1.
system_unique_no
, integer
2.
piping_comp_no
, character(20)
This attribute uniquely identifies the specialty component number. It is sometimes referred to as Item Number. 3.
model_code
, character(6)
This attribute identifies the piping specialty name. This can be a Piping Job Specification access name or a PDS commodity item name. 4.
option_code
, short
, SN 400
This code-listed attribute identifies the option code which determines the search criteria. This parameter enables you to request that the system retrieve the primary item, a secondary item, or another special option from the Piping Job Specification. You can select the unique options (as defined in standard note 400) from a form. If no option is specified at placement, the primary item is used. Option 2 is reserved as the secondary item. This parameter is used as a component override in the Piping Designer. 5.
gcp_from_nom_diam
, short
(NPD Units)
6.
gcp_to_nom_diam
, short
(NPD Units)
7.
gcp_end_prep
, short
, SN 330
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5. Piping Job Specification
These coded attributes identify the range of nominal piping diameters (lower bound to higher bound) for the green connect point.
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These attributes identify the end preparation for the green/red connect point. This value is an intelligent code list. The system determines the termination type based on the range of values 2 - 199 bolted terminations 300 - 399 male terminations 400 - 599 female terminations 8.
gcp_rating
, character(8)
These attributes identify the pressure rating for the green/red connect point. This parameter exists as alphanumeric data. The system interprets the first set of sequential numeric characters as being the pressure rating value. (Refer to the description of pressure rating under Piping Commodity Data for more information on standard formats.) 9.
gcp_sch_thk
, character(8)
These attributes identify the schedule or thickness value for the green/red connect point. This parameter exist as alphanumeric data. (Refer to the description of schedule and thickness for more information on standard formats.) 10.
gcp_table_suffix
, short
, SN 576
These code-listed attributes identify the source of the generic dimensional data, such as flange data or piping outside diameter data. For AMS standards, it represents the table suffix for the connect point. For DIN standards, it represents the piping outside diameter selection flag (reihe number) for pipes and fittings. 11.
rcp_from_nom_diam
, short
(NPD Units)
12.
rcp_to_nom_diam
, short
(NPD Units)
These coded attributes identify the range of nominal piping diameters (lower bound to higher bound) for the red connect point. For a full size component, these values are set to zero. 13.
rcp_end_prep
, short
See gcp_end_prep. 14.
rcp_rating
, character(8)
See gcp_rating. 15.
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rcp_sch_thk
, character(8)
, SN 330
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Piping Specialty Specification Data (203)
See gcp_sch_thk. 16. rcp_table_suffix
, short
, SN 577
See gcp_table_suffix 17.
physical_data_id
, character(8)
This parameter can be used to identify the name of the physical dimension table in the Physical Data Library to be used for this engineered item. 18.
PDS_sort_code
, character(6)
This attribute can be used to define an arbitray index to a geometric data table for piping specialties. This is an optional input. 19.
modifier
, double
This attribute is used for pipe bends, elbows, and miters. It represents the bend radius in terms of the nominal piping diameter. 20.
geometric_standard , short
, SN 575
This attribute provides a reference to the source of the data (which is usually an industry standard, such as ANSI, ISO, or DIN, or a company standard) from which the specific geometry of the commodity item can be deduced. 21.
weight_code
, short
, SN 578
This code-listed attribute defines the weight code for the component. It determines the table to be used in finding the dry weight of the component. It is required for those cases where material causes the dry weight data but not the dimensional data to differ for a specific geometric industry standard. 22.
fabrication_cat
, short
, SN 180
This code-listed attribute identifies the shop/field fabrication and purchase status of a component. It defines how the component was supplied and how the component was fabricated (for example, Shop Supplied, Field Fabricated). materials_grade
, short
, SN 145
This code-listed attribute identifies the material code, specification, grade-temper, and joint efficiency for the component. It can be used to access physical data in the Graphic Commodity Library. 24.
standard_note_no_a , short
, SN 499
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5. Piping Job Specification
23.
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25.
standard_note_no_b , short
, SN 499
These attributes provide index numbers to standard notes in 499 that apply to this specialty item. The input to the Standard Note File is the note number. The output is the free-format text which forms the standard note. In the delivered data, note numbers 600 through 799 are allocated for piping specialties. 26.
input_form_type
, short
, SN 990
This code-listed attribute defines the type of input form to be used to define data with the Spec Writer command.
Neutral File Format
Sample Files A sample neutral file is delivered in the file \win32app\ingr\pddata\sample\data\specialty.data. A sample file containing various bio-pharmaceutical specialty items is delivered in the file \win32app\ingr\pddata\sample\data\pharms.data.
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Instrument Component Specification Data (204)
5.2.4
Instrument Component Specification Data (204) This table contains the data for a specific instrument item. It is used to define the instruments which are used frequently by a particular company or installation. The instruments are defined for the entire project, they are not partitioned by PMC. The following data exists in the Instrument table. The Instrument Component Specification Data table contains 26 attributes. You can also place instruments interactively in the model by defining the necessary parameters at the time of placement. No entries in the PJS database are required for these interactive definitions. Refer to the Piping Design Graphics Reference Guide for more information on placing instruments. 1.
system_unique_no
2.
instrument_comp_no , character(20)
, integer
This attribute identifies the tag number for the instrument item. You can modify the character length for this attribute. 3.
model_code
, character(6)
This attribute identifies the specific item name for generic bends, spec flanges, or spec valves. This can be a Piping Job Specification access name, or a PDS commodity item name. Refer to the PDS Piping Component Data Reference Guide for more information on item names. 4.
option_code
, short
, SN 400
This code-listed attribute identifies the option code which determines the search criteria. This parameter enables you to request that the system retrieve the primary item, a secondary item, or another special option from the Piping Job Specification. You can select the unique options (defined in a standard note) from a form. If no option is specified at placement, the default option 1 is used. Option 2 is reserved as the secondary item. This parameter is used as a component override in Piping Design. gcp_from_nom_diam
, short
(NPD Units)
6.
gcp_to_nom_diam
, short
(NPD Units)
5. Piping Job Specification
5.
These coded attributes identify the range of nominal piping diameters (low bound to high bound) for the green connect point. 7.
gcp_end_prep
, short
, SN 330
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These code-listed attributes identify the end preparation for the green/red connect point. The system determines the termination type based on the range of values 2 - 199 bolted terminations 300 - 399 male terminations 400 - 599 female terminations 8.
gcp_rating
, character(8)
These attributes identify the pressure rating for the green/red connect point. This parameter exists as alphanumeric data. The system interprets the first set of sequential numeric characters as being the pressure rating value. (Refer to the description of pressure rating for more information on standard formats.) 9.
gcp_sch_thk
, character(8)
These attributes identify the schedule thickness value for the green/red connect point. (Refer to the description of schedule and thickness for more information on standard formats.) 10.
gcp_table_suffix
, short
, SN 576
These code-listed attributes reference the source of the generic dimensional data, such as flange data or piping outside diameter data. For AMS standards, it represents the table suffix for the connect point. For DIN standards, it represents the piping outside diameter selection flag (reihe number) for pipes and fittings. 11.
rcp_from_nom_diam
, short
(NPD Units)
12.
rcp_to_nom_diam
, short
(NPD Units)
These coded attributes identify the range of nominal piping diameters (low bound to high bound) for the red connect point. For a full size component, these parameters are set to zero. 13.
rcp_end_prep
, short
See gcp_end_prep. 14.
rcp_rating
, character(8)
See gcp_rating. 15.
rcp_sch_thk See gcp_sch_thk.
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, character(8)
, SN 330
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Instrument Component Specification Data (204)
16.
rcp_table_suffix
, short
, SN 577
See gcp_table_suffix. 17.
physical_data_id
, character(8)
This parameter can be used to reference the set of physical data from the Physical Data Library to be used for this instrument item. 18.
PDS_sort_code
, character(6)
This attribute can be used to define an arbitrary index in the geometric data table for instruments. This is an optional input. 19.
modifier
, double
This parameter, if applicable, is used to determine the type of valve operator for instrument valves. It specifies the identification of the symbol description and the source of the physical data for a valve operator. 20.
geometric_standard , short
, SN 575
This code-listed attribute identifies the source of the data (which is usually an industry standard such as ANSI, ISO, or DIN; or a company standard) from which the specific geometry of the commodity item can be deduced. 21.
weight_code
, short
, SN 578
This code-listed attribute defines the weight code for the instrument. It determines the table to be used in finding the dry weight of the instrument. It is required for those cases where material causes the dry weight data but not the dimensional data to differ for a specific geometric industry standard. 22.
fabrication_cat
, short
, SN 180
This code-listed attribute identifies the shop/field fabrication and purchase status of a component. It defines how the component was supplied and how the component was fabricated (for example, Shop Supplied, Field Fabricated). 23.
materials_grade
, short
, SN 145
24.
standard_note_no_a , short
, SN 499
25.
standard_note_no_b , short
, SN 499
These code-listed attributes provide the index number to standard notes in NL499 that apply to this instrument. The input to the Standard Note File is the note number. The output is the free- format text which forms the standard note.
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5. Piping Job Specification
This code-listed attribute identifies the material code, specification, grade-temper, and joint efficiency for the instrument. It can be used to access physical data in the Piping Graphic Commodity Library.
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In the delivered data, note numbers 800 through 999 are allocated for instruments. 26.
input_form_type
, short
, SN 990
This code-listed attribute defines the type of input form to be used to define data with the Spec Writer command.
Neutral File Format
Sample Files A sample neutral file is delivered in the file \win32app\ingr\pddata\sample\data\instrment.data. A sample file containing various bio-pharmaceutical instruments is delivered in the file \win32app\ingr\pddata\sample\data\pharmi.data.
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Tap Properties Data (205)
5.2.5
Tap Properties Data (205) This table contains the tap properties data that is a function of the tap properties table name and the nominal piping diameter. These tables define the piping taps which can be added to any of the components included in a piping materials class. The system uses the information in these tables and the nominal diameter to provide values for rating, end preparation, schedule/thickness, and tap code. Tap tables do not allow a NPD range; there must be an individual entry for each tap diameter. The NPD entry in the tap table should be either imperial units or metric units depending on the NPD requirements of the project. For imperial units, enter the specified NPD, such as 0.375. The software will provide a default unit of inches when the value is loaded into the project. For metric NPD units, enter the units after the value on the first NPD entry. For example: !
Diam 10mm 20
Opt 1 691
Rating -
Prp 591 591
SC/Th NREQD NREQD
Tap Code E$37591XXX E$37581XXX
The Tap Properties Data table contains 8 attributes. The following kinds of taps may be defined in this table: No-hole taps that permit the subsequent placement of a pipe support trunnion. For example, a no-hole tap may be placed on an elbow or tee to allow the subsequent placement of a pipe trunnion for a pipe support; the diameter of this no-hole tap must be defined to have the same nominal diameter as the component part on which placed. Hole taps that permit the subsequent placement of piping, piping components, and instrument components. For example, a hole tap may be placed on a cap to allow the subsequent placement of a reducing component such as a flatolet; the diameter of this hole tap must be defined to have the same nominal diameter as the component part on which placed. A hole tap can also be placed on a blind flange to allow the placement of plain piping; the diameter of this hole tap must be defined to have the same nominal diameter as the plain piping.
Component taps that represent a tap connection, rather than a hole. For example, a socketwelded component tap may be placed on a gate valve to represent a socketwelded connection furnished by the valve manufacturer. The diameter of this component tap must be defined to have the same nominal diameter as the desired connection. 1.
system_unique_no
, integer
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5. Piping Job Specification
Hole taps that permit the venting or draining of a piping and/or instrument component. For example, a hole tap can be placed on an elbow downstream of a relief valve; the diameter of this hole tap must be defined to have the same nominal diameter as the desired drain hole.
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2.
tap_table_name
, character(6)
This attribute identifies the name of the Tap Properties Data Table. These tables use the following naming conventions: first character: C next three characters: numbers from 001 through 999 used to make the table name unique. The combination of the tap properties table name, the tap NPD, and the tap option, must be unique. 3.
nominal_piping_dia , short This attribute defines the value for the nominal tap diameter.
4.
option_code
, short
, SN 400
This code-listed attribute identifies the option code which determines the search criteria. This parameter enables you to request that the system retrieve the primary item, a secondary item, or another special option from the Piping Job Specification. If no option is specified at placement, this attribute defaults to option 1 (primary item). This parameter is used as a component override in Piping Design. 5.
end_preparation
, short
, SN 330
This code-listed attribute identifies the end preparation. The system recognizes a certain range of values as being flanged termination types, another range as being butt welded termination types, etc. 6.
rating
, character(8)
This attribute exists as alphanumeric data. The system interprets the first set of sequential numeric characters as being the pressure rating value. (Refer to the description of pressure rating for Piping Commodity Data for more information on standard formats.) 7.
sched_thick
, character(8)
This attribute identifies the generic or specific schedule, a thickness value, or a calculation. (Refer to the description of schedule and thickness for Piping Commodity Data for more information on standard formats.) 8.
tap_material_code
, character(10)
This optional attribute can be used to access the Material Description Library for the tap’s material description addendum. It must be a unique reference to the Material Description Library, including material descriptions for commodity items. In reporting or isometric extraction, this text can be appended to either the short or long descriptions of the component to which the tap applies.
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Tap Properties Data (205)
This attribute is also referred to as the Tap Code. Refer to the listing of the tap descriptions in the Short Material Description Library, page 367, for more information on the tap commodity code.
Neutral File Format Double_Spacing Sequence= 3 4 6 5 7 ! By=GJH Ckd By=RJW
8 Rev=2
Date=12-May-1988
Table= C001 ! Description= SWE CL3000 default taps ! Diam Opt Rating Prp Sc/Th Tap Code 0.375 691 591 NREQD E$37591XXX > 0.5 1 CL3000 421 NREQD E$50421064 0.5 691 591 NREQD E$50591XXX > 0.75 1 CL3000 421 NREQD E$75421064 0.75 691 591 NREQD E$75591XXX > 1 1 CL3000 421 NREQD E001421064 1 691 591 NREQD E001591XXX > 1.25 1 CL3000 421 NREQD E1$2421064 1.25 691 591 NREQD E1$2591XXX > 1.5 1 CL3000 421 NREQD E1$5421064 1.5 691 591 NREQD E1$5591XXX > 2 1 CL3000 421 NREQD E002421064 2 691 591 NREQD E002591XXX 2.5 691 591 NREQD E2$5591XXX > 3 1 CL3000 421 NREQD E003421064 3 691 591 NREQD E003591XXX 3.5 691 591 NREQD E3$5591XXX > 4 1 CL3000 421 NREQD E004421064 4 691 591 NREQD E004591XXX 5 691 591 NREQD E005591XXX 6 691 591 NREQD E006591XXX 8 691 591 NREQD E008591XXX 10 691 591 NREQD E010591XXX 12 691 591 NREQD E012591XXX 14 691 591 NREQD E014591XXX 16 691 591 NREQD E016591XXX 18 691 591 NREQD E018591XXX 20 691 591 NREQD E020591XXX 24 691 591 NREQD E024591XXX 26 691 591 NREQD E026591XXX 28 691 591 NREQD E028591XXX 30 691 591 NREQD E030591XXX 32 691 591 NREQD E032591XXX 34 691 591 NREQD E034591XXX 36 691 591 NREQD E036591XXX 42 691 591 NREQD E042591XXX 48 691 591 NREQD E048591XXX
Sample Files 5. Piping Job Specification
A sample neutral file for US practice is delivered in the file \win32app\ingr\rdusrdb\spec_data\taps.data. A sample file containing various bio-pharmaceutical tap properties is delivered in the file \win32app\ingr\pddata\sample\data\pharm_tap.data.
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5.2.6
Piping Commodity Size-Dependent Material Data (211) The Size-Dependent Data table contains the data for a specific commodity item that is dependent on the commodity code, nominal piping diameter, and schedule/thickness. This table is used for miscellaneous batch reporting, such as construction cost reports and requisition orders, and interfaces to material control, stress analysis, and isometric drawing extraction. There are multiple occurrences for a specific commodity code and a specific pair of green and red nominal piping diameters in the Piping Commodity Size-Dependent Material Data table because schedule/thickness is not included in the commodity code. The Piping Commodity Size-Dependent Material Data table contains 10 attributes. 1.
system_unique_no
2.
sys_commodity_code , character(16)
, integer
This parameter identifies the customer’s commodity code (or part number). You can modify the character length for this attribute. 3.
gcp_nom_diam
, short
4.
rcp_nom_diam
, short
These coded attributes identify the nominal piping diameter for the green/red connect point in NPD Units. 5.
gcp_sch_thk
, character(8)
6.
rcp_sch_thk
, character(8)
These attributes identify the schedule thickness value for the green/red connect point. This parameter exist as alphanumeric data. A generic schedule such as S-STD, S-XS and S-XXS. If the schedule name exceeds the provided field length it is defined in terms of its wall thickness. A specific schedule such as S-40, S-60 and S-80. NREQD is used if the thickness value is not required in purchasing the component, empty weights are not significantly affected by actual thickness values, stress analysis is not applicable. A value with all numeric characters is interpreted as a wall thickness value in the same physical units as nominal piping diameter.
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Piping Commodity Size-Dependent Material Data (211)
An asterisk (*) followed by a name (of the form Cyyy) defines the specific calculation or table lookup to be used for wall thickness. 7.
commodity_code
, character(16)
, index 1
This attribute identifies the customer’s commodity code or vendor’s part number. It is not required for the customer’s commodity code, if the customer’s commodity code is not dependent upon nominal piping diameter or thickness. 8.
weld_weight
, double
This parameter represents the total weld required at all welded ends of the commodity item. 9.
unit_price
, double
This attribute identifies the unit price (materials cost) for the commodity item. 10.
manhours
, double
This attribute identifies the unit manhours associated with the commodity item.
Neutral File Format
A sample neutral file is delivered in the file \win32app\ingr\pddata\sample\data\pcd_size.data.
The data retrieval from the Size-Dependent Data table involves data for a commodity item that is dependent upon nominal piping diameter and schedule/thickness. This form of data retrieval is used during the MTO report creation process.
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5. Piping Job Specification
Data Retrieval
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inputs (search criteria) pointer to the commodity item dependent data NPD green - first size NPD red - second size schedule/thickness - green connect point schedule/thickness - red connect point
outputs customer’s commodity code or vendor’s part number weld data price data (materials cost) - unit price labor data - unit manhours
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Piping Commodity Implied Material Data (212)
5.2.7
Piping Commodity Implied Material Data (212) The Implied Material Data table contains the implied material data for a specific commodity item that is dependent on both the Piping Commodity Library code and nominal piping diameter range. This data is used strictly for generating implied material for MTO reporting and material control. It is reserved for spec implied material, such as caps or stubs, for a specific commodity item. It is also used for reporting the implied components of a commodity item (for example, cap screws). The Piping Commodity Implies Material Data table contains 10 attributes. The entries in this tables should not be confused with mating implied items (such as welds, bolts, nuts, or gaskets) which are generated automatically by the system. Refer to the Report Manager (PD_Report) User’s Guide for more information on implied items. A unique commodity code must be defined for each commodity definition. For example, if a commodity code is defined for gate valves from 2" to 14", but you want a different description for an 11" gate valve, you must assign a new commodity code to the 11" valve. 1.
system_unique_no
2.
sys_commodity_code , character(16)
, integer
This parameter identifies the customer’s commodity code (or part number), if it is not dependent upon nominal piping diameter. You can modify the character length for this attribute. 3.
gcp_from_nom_diam
, short
4.
gcp_to_nom_diam
, short
These coded attributes identify the range of nominal piping diameters for the green connect point in NPD units. These values are not necessarily the same as the range in the Piping Job Specification. NPD is defined as a special coded number with the following formula.
for English Units, the coded number equals the size (in inches) times 32 plus 5000. coded number = 32*diameter + 5000 (in) This allows nominal piping diameter to range from 1 mm to 5000 mm in 1 mm increments for metric units, and to range from 1/32" to at least 200" in 1/32" increments for the English System of Units.
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5. Piping Job Specification
for Metric units, the coded number equals the size (in millimeters)
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5.
rcp_from_nom_diam
, short
6.
rcp_to_nom_diam
, short
These coded attributes identify the range of nominal piping diameters for the red connect point in NPD units. These values are not necessarily the same as the range in the Piping Job Specification. For a full size component, these parameters should be set to ’-’. 7.
commodity_code
, character(16)
, index 1
This attribute identifies the Piping Commodity code of the implied material. It is used to generate an MTO line item as a result of a piping commodity item in the Piping Design model. The implied material is generated by accessing the Piping Commodity Library - not by accessing the Piping Design database. 8.
quantity
, double
This attribute identifies the quantity of the implied material. 9.
fabrication_cat
, short
This code-listed attribute identifies the shop/field fabrication and purchase status of a component. It defines how the component was supplied and how the component was fabricated (for example, Shop Supplied, Field Fabricated). 10.
standard_note_no
, short
This code-listed attribute provides index numbers to standard notes in CL499 that apply to this implied material.
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Piping Commodity Implied Material Data (212)
Neutral File Format
Sample Files A sample neutral file for US practice is delivered in the file \win32app\ingr\rdusrdb\spec_data\implied.data.
5. Piping Job Specification
A sample file containing various bio-pharmaceutical gasket data is delivered in the file \win32app\ingr\pddata\sample\data\pharm_212.data.
Data Retrieval Data retrieval from the Implied Material Data table involves implied material data for a commodity item that is dependent on nominal piping diameter range. This form of data retrieval is used during the MTO Report Creation process and Material Control.
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inputs (search criteria) pointer to the commodity item dependent data
outputs Commodity code of the implied material Quantity of the implied material Fabrication category of the implied material Standard note for the implied material
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Component Insulation Exclusion Data (231)
5.2.8
Component Insulation Exclusion Data (231) The Component Insulation Exclusion Data is used to completely or partially exclude the insulation of components on insulated lines with respect to interference checking. For each piping component, piping specialty, or instrument component (excluding pipes) on an insulated line, the Piping Envelope Builder will search the Component Insulation Exclusion Data Table on the basis of the following data to determine whether or not insulation should be completely excluded from that component’s interference envelope. green nominal piping diameter of the component (range search) red nominal piping diameter of the component (range search) heat tracing requirements (range search) insulation purpose (range search) normal operating temperature (range search) For piping commodities, the Piping Envelope Builder searches for the component’s commodity name in the Component Insulation Exclusion Data Table using the preceding data. If the piping commodity is defined in the exclusion table for those conditions, the applicable insulation thickness will not be added to the component’s interference envelope. If the commodity name is not specified in the exclusion table for those conditions, the Piping Envelope Builder searches for the component’s model code using the same data. If a match for those conditions is found on the basis of model code, the applicable insulation thickness will not be added to the component’s interference envelope. Otherwise, the insulation thickness will be included in the component’s interference envelope. For piping specialties and instrument components, the Piping Envelope Builder searches for the component’s model code in the Component Insulation Exclusion Data Table using the preceding data. If the component is defined in the exclusion table for those conditions, the applicable insulation thickness will not be added to the component’s interference envelope. Otherwise, the insulation thickness will be included in the component’s interference envelope.
The Component Insulation Exclusion Data table contains 13 attributes. 1.
system_unique_no
, integer
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The piping segment data (heat tracing requirements, insulation purpose, and normal operating temperature) are determined on the basis of the piping segment that is associated with the first connect point of the applicable component.
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2.
commodity_name
, character(6)
This attribute identifies the commodity item name of a piping component as defined in the Piping Commodity Specification Data (Table 202 attribute 3). If this attribute is blank, the system will search for a match by model code. 3.
model_code
, character(6)
For piping commodities, this attribute identifies the model code as defined in the Piping Commodity Specification Data (Table 202 attribute 19). For piping specialties, this attribute identifies the model code as defined in the Piping Specialty Specification Data (Table 203 attribute 3). For instruments, this attribute identifies the model code as defined in the Instrument Component Specification Data (Table 204 attribute 3). 4.
gcp_npd_from
, short
5.
gcp_npd_to
, short
These coded attributes identify the range of nominal piping diameters (lower bound to higher bound) for the green connect point of the component or instrument in NPD units. 6.
rcp_npd_from
, short
7.
rcp_npd_to
, short
These coded attributes identify the range of nominal piping diameters (lower bound to higher bound) for the red connect point of the component or instrument in NPD units. For full size components use a dash (-) for these attributes. 8.
heat_tracing_from
, short
, SN 200
9.
heat_tracing_to
, short
, SN 200
These code-listed attributes identify the range of heat tracing values (lower bound to higher bound) using values from code list set 200, Heat Tracing Requirements. A dash (-) can be used for the from value to indicate that heat tracing requirements are not to be considered as part of the discrimination process. 10.
insul_purpose_from , short
, SN 220
11.
insul_purpose_to
, SN 220
, short
These code-listed attributes identify the range of insulation purpose values (lower bound to higher bound) using values from Standard Note type 220, Insulation Purpose.
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Component Insulation Exclusion Data (231)
A dash (-) can be used for the from value to indicate that insulation purpose is not to be considered as part of the discrimination process. 12.
nor_oper_temp_from , double
13.
nor_oper_temp_to
, double
These attributes identify the range of temperature values (lower bound to higher bound) for the component or instrument. A dash (-) can be used for the from value to indicate that temperature is not to be considered as part of the discrimination process. The system of units for the temperature range is the same as the system of units for the maximum temperature in the Piping Commodity Specification Data Table. Note that normal design temperature, alternate operating temperature, and alternate design temperature are not considered.
Neutral File Format !
DEFINE COMPONENT INSULATION EXCLUSION DATA Single_Spacing Sequence= 2 3 4 5 6 7 8 9 10 11 12 13 6Q2C76 -
I15AS REDE
4 4 4
12 12 12
2
10
3 3 3
3 3 3
5 5 5
5 5 5
150 150 150
200 200 200
A sample neutral file is delivered in the file \win32app\ingr\pddata\sample\data\component.data.
5. Piping Job Specification
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5.2.9
Flange Insulation Exclusion Data (232) The Flange Insulation Exclusion Data provides for partial exclusion of flange insulation thickness from the generation of interference envelopes. This is an optional data table; if no data is defined for this table the Piping Envelope builder will continue to function as it has in previous releases of PDS. The Piping Envelope Builder searches for matching data in this table for each bolted end of each piping component or instrument component on an insulated line that are determined to be insulated. The system only searches for components that passed the component insulation exclusion test, as described in Component Insulation Exclusion Data (231), page 95. The Piping Envelope Builder searches for matching data on the basis of the following data to determine whether or not insulation should be excluded from the flange outside diameter of that bolted end of the component. nominal piping diameter of the bolted end (range search) heat tracing requirements (range search) insulation purpose (range search) normal operating temperature (range search) If matching criteria is found in the exclusion table for these conditions, the applicable insulation thickness will not be added to the flange outside diameter of the bolted end of that component’s interference envelope. Otherwise, the insulation thickness will be included in the component’s interference envelope. The piping segment data (heat tracing requirements, insulation purpose, and normal operating temperature) are determined on the basis of the piping segment associated with the first connect point of the applicable component. The Piping Eden modules for the interference envelopes that are to consider the partial exclusion of insulation from the flange outside diameter of a bolted end, must be revised to accommodate this option. If you do not change any or all of the Piping Eden modules for the interference envelopes, this table will have no impact and the interference envelopes will include complete insulation, when applicable. For example, the required modification to the interference parametric for the weldneck flange (FWN) is as follows: !FLANGE - Interference Module Interference_Parametric_Shape_Definition ’F1A’ Call Define_Connect_Point_Geometry ( LINEAR ) Thickness_1 Thickness_2 !Original Line ! Facing_OD_1 !Modified Line Facing_OD_1 Facing_OD_2
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= Thickness_1 + CP_Offset_1 = Thickness_2 + CP_Offset_2 = Facing_OD_1 + Insulation * 2 = Facing_OD_1 + Insulation_1 * 2 = Facing_OD_2 + Insulation * 2
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Flange Insulation Exclusion Data (232)
Call Draw_Cylinder ( Thickness_1, Facing_OD_1 ) Call Draw_Cylinder ( Thickness_2, Facing_OD_2 ) RETURN END
The Flange Insulation Exclusion Data table has 9 attributes. 1.
system_unique_no
, integer
2.
bolted_npd_from
, short
3.
bolted_npd_to
, short
These coded attributes identify the range of nominal piping diameters (lower bound to higher bound) for the bolted end of the component or instrument in NPD units. 4.
heat_tracing_from
, short
, SN 200
5.
heat_tracing_to
, short
, SN 200
These code-listed attributes identify the range of heat tracing values (lower bound to higher bound) using values from code list set 200, Heat Tracing Requirements. A dash (-) can be used for the from value to indicate that heat tracing requirements are not to be considered as part of the discrimination process. 6.
insul_purpose_from , short
, SN 220
7.
insul_purpose_to
, SN 220
, short
These code-listed attributes identify the range of insulation purpose values (lower bound to higher bound) using values from Standard Note type 220, Insulation Purpose. A dash (-) can be used for the from value to indicate that insulation purpose is not to be considered as part of the discrimination process. 8.
nor_oper_temp_from , double
9.
nor_oper_temp_to
, double
A dash (-) can be used for the from value to indicate that temperature is not to be considered as part of the discrimination process. The system of units for the temperature range is the same as the system of units for the maximum temperature in the Piping Commodity Specification Data Table. Note that normal design temperature, alternate operating temperature, and alternate design temperature are not considered.
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These attributes identify the range of temperature values (lower bound to higher bound) for the bolted end of the component or instrument.
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Neutral File Format !
DEFINE FLANGE INSULATION EXCLUSION DATA Single_Spacing Sequence= 2 3 4 5 6 7 8 9 4 4 4
100
12 12 12
3 3 3
3 3 3
5 5 5
5 5 5
150 150 150
200 200 200
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Piping Construction Tolerance Exclusion Data (233)
5.2.10
Piping Construction Tolerance Exclusion Data (233) The Piping Construction Tolerance Exclusion Data can be used to completely or partially exclude construction tolerance from the generation of interference envelopes. This feature only applies to Piping vs. Piping construction tolerances.
This is an optional data table; if no data is defined for this table the Piping Envelope builder will continue to function as it has in previous releases of PDS. For each piping or instrument component, excluding pipes, the Piping Envelope Builder searches Table 233 on the basis of the following data to determine whether the Piping versus Piping construction tolerance should be excluded from that component’s interference envelope. green NPD of the component (range search) red NPD of the component (range search) For piping commodities, the Piping Envelope Builder searches for the component’s commodity name in the Piping Construction Tolerance Exclusion Data Table using the preceding data. If the piping commodity is defined in the exclusion table for those conditions, the applicable construction tolerance will not be added to the component’s interference envelope.
Otherwise, the construction tolerance will be included in the component’s interference envelope. For piping specialties and instrument components, the Piping Envelope Builder searches for the component’s model code in the Piping Construction Tolerance Exclusion Data Table using the preceding data. If the component is defined in the exclusion table for those conditions, the applicable construction tolerance will not be added to the component’s interference envelope. Otherwise, the construction tolerance will be included in the component’s interference envelope.
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5. Piping Job Specification
If the commodity name is not specified in the exclusion table for those conditions, the Piping Envelope Builder will search for the component’s model code using the same data. If a match for those conditions is found on the basis of the model code, the applicable construction tolerance will not be added to the component’s interference envelope.
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The Piping Construction Tolerance Exclusion Data table has 7 attributes. 1.
system_unique_no
, integer
2.
commodity_name
, character(6)
This attribute identifies the commodity item name of a piping component as defined in the Piping Commodity Specification Data (Table 202 attribute 3). If this attribute is blank, the system will search for a match by model code. 3.
model_code
, character(6)
For piping commodities, this attribute identifies the model code as defined in the Piping Commodity Specification Data (Table 202 attribute 19). For piping specialties, this attribute identifies the model code as defined in the Piping Specialty Specification Data (Table 203 attribute 3). For instruments, this attribute identifies the model code as defined in the Instrument Component Specification Data (Table 204 attribute 3). 4.
gcp_npd_from
, short
5.
gcp_npd_to
, short
These coded attributes identify the range of nominal piping diameters (lower bound to higher bound) for the green connect point of the component or instrument in NPD units. 6.
rcp_npd_from
, short
7.
rcp_npd_to
, short
These coded attributes identify the range of nominal piping diameters (lower bound to higher bound) for the red connect point of the component or instrument in NPD units. For full size components use a dash (-) for these attributes.
Neutral File Format !
PIPING CONSTRUCTION TOLERANCE EXCLUSION DATA Single_Spacing Sequence= 2 3 4 5 6 7 6Q2C76 -
I15AS REDE
4 4 4
12 12 12
2
10
A sample neutral file is delivered in the file \win32app\ingr\pddata\sample\data\constol.data.
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Spec Writer
5.3
Spec Writer This command provides a forms interface for interactively creating, revising, and managing the following specification data. This interface provides more simplicity and flexibility to a beginner or a casual user, than defining specs with their respective neutral files: Piping Materials Class Data (PDtable_201) Piping Commodity Specification Data (PDtable_202) Piping Specialty Specification Data (PDtable_203) Instrument Specification Data (PDtable_204) Tap Properties Data (PDtable_205) Piping Commodity Implied Material Data (PDtable_212)
Features 5. Piping Job Specification
The Spec Writer provides the following general features: User-specified options for customizing the input of data (RDB_options). A direct interface to the unapproved Specification Material Reference Database. On-line validation for the existence of a material description, once the commodity code (or component number) has been defined.
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Optional on-line Table Checker validation using pre-defined Table Checker reports. Automated selections from the Standard Note Library for code-listed data. The approved Standard Note Library must have been defined to include the correct data for use in the Material Reference Database. Selectable list of acceptable model codes for a specified commodity name. Context-sensitive user interface. The form options will vary depending on the item being defined. For example, the creation (and revision) of specification data for bolts and gaskets, will display only those inputs relevant for bolts or gaskets. Context-sensitive on-line help that is linked to the Component Data Reference Guide and the Reference Data Manager Reference Guide.
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RDB Options File
5.3.1
RDB Options File The RDB Options File allows you to customize the data input operations for the Interactive Spec Writer. You should define an RDB options list, named RDB_options in the project directory. A default RDB options list is included in the PD_Data sample/data/ directory.
5. Piping Job Specification
! RDB_options ! ! general items = three main toggles ! SHORT_COMMODITY_MATERIAL_DESCRIPTION = OFF LONG_COMMODITY_MATERIAL_DESCRIPTION = OFF SPECIALTY_MATERIAL_DESCRIPTION = OFF ! ! PDtable_201 items ! SERVICE_LIMITS_TABLE = LIST, L NOMINAL_PIPING_DIAMETER_TABLE = LIST, D BRANCH_TABLE = LIST, B TAP_PROPERTIES_TABLE = DATABASE GASKET_SEPARATION_TABLE = KEYIN THICKNESS_DATA_TABLE = LIST, T MATERIALS_DATA_TABLE = LIST, M FLUID_CODE = VALUE MATERIALS_DESCRIPTION = LIST !BEND_DEFLECTION_TABLE = LIST, BENDEF !PIPE_LENGTH_TABLE = LIST, PIPLEN STANDARD_NOTE = LIST PROMPT_FOR_TAP_ORIENTATION ! ! PDtable_202 items ! MODEL_CODE = LIST VALVE_OPERATOR = LIST ! ! COMMODITY_NAMEMODEL_CODES ! ! Pipe/Tube PIPING = PIPE, TUBE ! ! Valves (6Q1C) ! 6Q1C01 = GATSP, GAT, GATF, GATR 6Q1C02 = GATEX, GATEXB, GATEXBB 6Q1C03 = GATCON 6Q1C04 = GATBL ! ! Generic 3-way 6Q1C05 = BAL3P, GLO3W, PLU3W, SLI3W, 3WRV1 ! 6Q1C06 = BALF, BALR, BALSP, BALLP, BALVP 6Q1C08 = BAL3P 6Q1C11 = GLOSP, GLO, GLOF, GLOR 6Q1C12 = GLOASP, GLOA 6Q1C13 = GLO3W 6Q1C14 = GLOY, GLOYF, GLOYR 6Q1C16 = PLUSP, PLU, PLUVP, PLUFB, PLUF, PLUR 6Q1C18 = PLU3W 6Q1C19 = PLU4W 6Q1C22 = NEE 6Q1C26 = BFYLP, BFYHP 6Q1C30 = DIA, DIASP, DIAPL, DIAGL 6Q1C32 = KNF 6Q1C33 = SLI 6Q1C34 = SLI3W 6Q1C37 = CKALSP, CKAL, CKST, BDA, HOSA 6Q1C38 = CKLSP, CKSSP, CKL, CKLF, CKLR, CKS, CKSF, CKSR, CKSY, CKLRY 6Q1C39 = CKWF, CKWFSP 6Q1C40 = CKALSP, CKAL 6Q1C41 = CKST 6Q1C42 = CKAST 6Q1C43 = CKYST
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6Q1C50 = CKBP 6Q1C51 = CKAR 6Q1C53 = BDA 6Q1C54 = BDY 6Q1C56 = PIN 6Q1C57 = FLO 6Q1C58 = FOOT 6Q1C62 = TKDR 6Q1C69 = DEL 6Q1C72 = HOS 6Q1C73 = HOSA ! ! Generic Vent/Drain Valve 6Q1C76 = GATSP, GAT, GATF, GATR, BALF, BALR, BALSP, BALLP, BALVP ! ! Generic Instrument Root Valve 6Q1C80 = GATSP, GAT, GATF, GATR, BALF, BALR, BALSP, BALLP, BALVP ! 6Q1C81 = 3WRV1 6Q1C82 = 4WRV1 ! ! On-line Fittings (6P2C) and In-line Fittings (6Q2C) ! 6Q2C01 = FWN, FLWN, FSO, FL, FPL, FSSSO, FSSL, FSSPL, FLSSO, FLSL, FFIL, FS, FSW, FTHD, FCP 6Q2C03 = FRWN, FRSO, FRPL, FRS, FRSW, FRTHD 6Q2C04 = FEWN 6Q2C06 = FOWNA, FOWNAW, FOWNB, FOWNBW, FOSOA, FOSOAW, FOSOB, FOSOBW, FOSWA, FOSWAW, FOSWB, FOSWBW, FOTHDA 6Q2C08 = FBLD 6Q2C10 = BLSPO 6Q2C11 = BLSPC 6Q2C12 = BDISC 6Q2C13 = BLPAD 6Q2C14 = T1SPA, T2SPA1 6Q2C15 = BLSPA, OPSPA ! ! Generic End 6Q2C16 = FBLD, HDHEMI, HDELIP, HD21, PLUG, CAPBV, CAPOT ! 6Q2C17 = HDHEMI, HDELIP, HD21 6Q2C19 = PLUG 6Q2C21 = CAPBV, CAPOT ! ! Generic Conentric Diameter Change 6Q2C23 = REDC, SWGC, CPLR, INSR1, INSR2 ! ! Generic Eccentric Diameter Change 6Q2C24 = REDE, SWGE ! 6Q2C25 = CPL 6Q2C26 = CPLH 6Q2C27 = REDC 6Q2C28 = REDE 6Q2C32 = CPLR 6Q2C35 = SWGC 6Q2C36 = SWGE 6Q2C39 = UN 6Q2C40 = UNO 6Q2C41 = UND 6Q2C43 = HC 6Q2C44 = BUSH 6Q2C46 = INSR1, INSR2 6Q2C47 = PIPB, PIPB2 6Q2C49 = E5 6Q2C51 = E11 6Q2C53 = E22 ! ! Generic RCP OP_5 = Handwheel, inclined OP_9 = Wrench, short OP_11 = Wrench, long OP_17 = Lever OP_19 = T-handle, short OP_21 = T-handle, long OP_25 = Handwheel, special OP_27 = Wrench, special OP_29 = Gear, top mounted handwheel OP_31 = Gear, top mounted inclined handwheel OP_33 = Gear, side mounted handwheel OP_35 = Gear, side mounted inclined handwheel OP_39 = Lever, quick-action OP_40 = Post indicator ! ! Actuators ! OP_411 = Diaphragm, type 1 OP_412 = Diaphragm, type 2 OP_413 = Diaphragm, type 3 OP_431 = Press-balanced diaphragm type 1 OP_432 = Press-balanced diaphragm type 2 OP_433 = Press-balanced diaphragm type 3 OP_451 = Regulator type 1 OP_452 = Regulator type 2 OP_453 = Regulator type 3 OP_491 = Single acting cylinder type 1 OP_492 = Single acting cylinder type 2 OP_493 = Single acting cylinder type 3 OP_511 = Doulble acting cylinder type 1 OP_512 = Doulble acting cylinder type 2 OP_513 = Doulble acting cylinder type 3 OP_531 = Pilot operated cylinder type 1 OP_532 = Pilot operated cylinder type 2 OP_533 = Pilot operated cylinder type 3 OP_534 = Pilot operated cylinder type 4 OP_571 = Motor type 1 OP_572 = Motor type 2 OP_573 = Motor type 3 OP_574 = Motor type 4 OP_611 = Digital type 1 OP_651 = Electro-hydraulic type 1 OP_652 = Electro-hydraulic type 2 OP_811 = Weight type 1 OP_851 = Manual type 1 OP_852 = Manual type 2 OP_853 = Manual type 3 OP_854 = Manual type 4 OP_891 = Spring type 1 END_VALVE_OPERATOR_LIST
You can use the following keywords to customize the settings in the RDB options file.
General Items For piping commodities, you can verify that a material description has been defined in the Short Material Description Library and/or the Long Material Description Library. For piping specialties and instruments, you can verify that a material description has been defined in the Specialty Material Description Library. SHORT_COMMODITY_MATERIAL_DESCRIPTION = ON or OFF — If set to ON, the short material description is displayed when you specify the commodity code.
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If this keyword is not specified in the RDB options file, the default setting is OFF. LONG_COMMODITY_MATERIAL_DESCRIPTION = ON or OFF — If set to ON, the long material description is displayed when you specify the commodity code. If this keyword is not specified in the RDB options file, the default setting is OFF. SPECIALTY_MATERIAL_DESCRIPTION = ON or OFF — If set to ON, the specialty material description is displayed when you specify the commodity code. If this keyword is not specified in the RDB options file, the default setting is OFF.
PDtable_201 items SERVICE_LIMITS_TABLE = LIST, — If set to LIST, a list of Service Limits Tables (as defined in the approved Piping Job Specification Table Library) is displayed. You must specify a prefix to use as a substring search to determine the list of tables. (Use L for the delivered tables.) If this keyword is not specified in the RDB options file, the default mode is to key in the table name. NOMINAL_PIPING_DIAMETER_TABLE = LIST, — If set to LIST, a list of Nominal Piping Diameter Tables (as defined in the approved Piping Job Specification Table Library) is displayed. You must specify a prefix to use as a substring search to determine the list of tables. (Use D for the delivered tables.) If this keyword is not specified in the RDB options file, the default mode is to key in the table name. BRANCH_TABLE = LIST, — If set to LIST, a list of Branch Tables (as defined in the approved Piping Job Specification Table Library) is displayed. You must specify a prefix to be used as a substring search to determine the list of tables. (Use B for the delivered tables.) The list is filtered to only include the unique tables, where the branch angle is 90 degrees. If this keyword is not specified in the RDB options file, the default mode is to key in the table name.
TAP_PROPERTIES_TABLE = KEYIN or DATABASE — If set to DATABASE, a list of Tap Properties Data Tables (as defined in PDtable_205 of the unapproved Material Reference Database) is displayed.
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You should not assign the same Branch Table to be used in two different piping materials classes if, for example, one allows intersections at both 45 degrees and 90 degrees, and the other only allows 90 degree intersections. The Reference Data Manager will not detect this problem.
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If this keyword is not specified in the RDB options file, the default mode is to key in the table name. GASKET_SEPARATION_TABLE = KEYIN or LIST, — If set to LIST, a list of Gasket Separation Tables (as defined in the approved Piping Job Specification Table Library) is displayed. You must specify a prefix to be used as a substring search to determine the list of tables. (Use G for the delivered tables.) If this keyword is not specified in the RDB options file, the default mode is to key in the table name. When listing the Gasket Separation Tables, the list of tables is restricted to unique names, excluding the underbar (_) and the pressure rating value that follows. In other words, the list of Gasket Separation Tables will not include the pressure rating (G001 instead of G001_1500). THICKNESS_DATA_TABLE = KEYIN or LIST, — If set to LIST, a list of Thickness Data Tables (as defined in the approved Piping Job Specification Table Library) is displayed. You must specify a prefix to be used as a substring search to determine the list of tables. (Use T for the delivered tables.) If this keyword is not specified in the RDB options file, the default mode is to key in the table name. MATERIALS_DATA_TABLE = KEYIN or LIST, — If set to LIST, a list of Materials Data Tables (as defined in the approved Piping Job Specification Table Library) is displayed. You must specify a prefix to be used as a substring search to determine the list of tables. (Use M for the delivered tables.) If this keyword is not specified in the RDB options file, the default mode is to key in the table name. FLUID_CODE = VALUE — Specify a default fluid code value to be used for the piping materials class. If this keyword is not specified in the RDB options file, the default mode is that you do not intend to define this data, unless you specify the name of a Fluid Code Table. FLUID_CODE_TABLE = KEYIN or LIST, — If set to LIST, a list of Fluid Code Tables (as defined in the approved Piping Job Specification Table Library) is displayed. You must specify a prefix (such as FC) to be used as a substring search to determine the list of tables. If this keyword is not specified in the RDB options file, the default mode is to key in the table name. MATERIALS_DESCRIPTION = KEYIN or LIST — If set to LIST, a list of materials descriptions (as defined in the approved Standard Note Library) is displayed. If this keyword is not specified in the RDB options file, the default mode is to key in the value.
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BEND_DEFLECTION_TABLE = KEYIN or LIST, — If set to LIST, a list of Bend Deflection Tables (as defined in the approved Piping Job Specification Table Library) is displayed. You must specify a prefix to be used as a substring search to determine the list of tables. If this keyword is not specified in the RDB options file, the default mode is to key in the table name. PIPE_LENGTH_TABLE = KEYIN or LIST, — If set to LIST, a list of Pipe Length Tables (as defined in the approved Piping Job Specification Table Library) is displayed. You must specify a prefix to be used as a substring search to determine the list of tables. If this keyword is not specified in the RDB options file, the default mode is to key in the table name. STANDARD_NOTE = KEYIN or LIST — If set to LIST, a list of standard notes (as defined in the approved Standard Note Library) is displayed. If this keyword is not specified in the RDB options file, the default mode will to key in the value of the standard note.
PDtable_202 items MODEL_CODE = KEYIN or LIST — If set to LIST, a list of acceptable model codes (determined by the commodity name) is displayed. (See keyword COMMODITY_NAME MODEL_CODES for more information.) If this keyword is not specified in the RDB options file or the list of acceptable model codes is not defined, the default mode is to key in the value. VALVE_OPERATOR = KEYIN or LIST — If set to LIST, a list of valve operator types (as defined in the RDB options file) is displayed. (See keyword VALVE_OPERATOR_LIST for more information.) If this keyword is not specified in the RDB options file or the list of valve operator types is not defined, the default mode is to key in the value.
If this keyword is not included in the RDB options list, the relative tap orientation for two taps will always be 180 degrees. COMMODITY_NAME MODEL_CODES — This keyword precedes the list of associations between commodity names and their acceptable model codes. This list must be defined to use the LIST option for MODEL_CODE.
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PROMPT_FOR_TAP_ORIENTATION — This keyword is used if you require that all (or some) orifice flanges have two taps oriented 90 degrees apart. By default orifice taps are oriented 180 degrees apart on the outside diameter of the flange.
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The association between a commodity name and the acceptable model codes for that commodity name is defined as follows. = ,, ... 6Q1C01 = GATSP, GAT, GATF, GATR 6Q1C02 = GATEX, GATEXB, GATEXBB You can define as many as 50 model codes, separated by a comma, for each commodity name. The delivered RDB options list includes a list of acceptable model codes for the reference data provided with PDS. VALVE_OPERATOR_LIST — This keyword precedes the list of valve operator types and their corresponding descriptions. The list of valve operator types is defined as follows. = OP_0 = None Required OP_3 = Handwheel The delivered RDB options file includes a list of valve operator types for the reference data provided with PDS. The description is for information only to aid the user in selecting the proper valve operator type. END_VALVE_OPERATOR_LIST — This keyword must follow the valve operator list as a delimiter.
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5.3.2
Piping Materials Class Data Command The Piping Materials Class Data command can be used to create a piping materials class definition in Table 201 of the Material Reference Database or revise and existing piping materials class definition.
Options Create — The system activates the Create Piping Materials Class Data form. Revise By Keyin — The system activates the Revise Piping Materials Class Data form. Key in the name of the piping materials class to revise in the Piping Materials Class field. Revise By List — Select the piping materials class to be revised from the displayed list of piping materials classes (as defined in the Unapproved Material Reference Database) and select Accept. The system activates the Revise Piping Materials Class Data form with the data for the selected piping materials class.
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5.3.2.1
Create/Revise Piping Materials Class Data The Create/Revise Piping Materials Class Data form is used to create or modity the definition of a piping materials class. When creating a new definition, the system will jump to the input fields for the mandatory data. You must specify a value for all the mandatory fields.
Field Descriptions The system highlights the mandatory input fields (those that must be specified). Once you define a valid input for a mandatory field the system will drop the highlight for that field. Refer to RDB Options File, page 105 for information on defining list options for the applicable input fields. Refer to Piping Materials Class Data (201), page 62 for more information on the attributes for the Piping Materials Class Data table (201).
Mandatory Input Fields Piping Materials Class (keyin) — Key in up to 16 alphanumeric characters for the piping materials class to be defined. The system verifies that specified piping materials class does not already exist in the Unapproved Material Reference Database. Gasket Separation (keyin) — Key in the value for the gasket separation for this piping materials class.
— OR —
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Gasket Table (keyin or list) — Key in the table name or select from the list of tables (as defined in the approved Piping Job Specification Table Library). The list of Gasket Separation Tables will exclude the pressure rating value. Service Limits (keyin or list) — Key in the name of the Service Limits Table for this piping materials class or select from a list of Service Limits Tables (as defined in the approved Piping Job Specification Table Library). Diameter (keyin or list) — Key in the name of the Nominal Piping Diameter Table for this piping materials class or select from a list of Nominal Piping Diameter Tables (as defined in the approved Piping Job Specification Table Library). Branch Table (keyin or list) — Key in the name of the Branch Table for this piping materials class or select from a list of Branch Tables (as defined in the approved Piping Job Specification Table Library). The list will only include the unique tables, where the branch angle is 90 degrees. You should not assign the same Branch Table to be used in two different piping materials classes if, for example, one allows intersections at both 45 degrees and 90 degrees, and the other only allows 90 degree intersections. The Reference Data Manager will detect this problem. Tap Data (keyin or list) — Key in the name of the Tap Properties Data Table for this piping materials class or select from a list of Tap Properties Data Tables (as defined in PDtable_205 of the unapproved Material Reference Database). The unapproved tap properties data is referenced, since all specification data within the Material Reference Database is approved in one operation.
Optional Data - Wall Thickness This data is required for piping commodities, where the schedule or thickness is not explicitly defined in the piping materials class or in a wall thickness table. Corrosion Allowance (keyin) — Key in a numeric value, if wall thickness calculations are to be used. Thickness Equation (list) — Select one of the displayed wall thickness equations. EL01 EJ01
The corresponding name for the thickness equation is loaded into the Piping Materials Class Data Table. Thickness Table (keyin or list) — Key in the name of the Thickness Data Table for this piping materials class or select from a list of Thickness Data Tables (as defined in the approved Piping Job Specification Table Library).
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ANSI B31.3-1987 ANSI B31.1a-1986
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Materials Data Table (keyin or list) — Key in the name of the Materials Data Table for this piping materials class or select from a list of Materials Data Tables (as defined in the approved Piping Job Specification Table Library).
Optional Data The following data is not not required and can be defined or not defined based on your company practices. Materials Description (keyin or list) — Key in the numeric value for the materials description in the Standard Note Library for this piping materials class or select from the list of materials descriptions (as defined in the approved Standard Note Library). Revision (keyin) — Key in up to two alphanumeric characters for the revision number. Revision Date (keyin) — Key in up to ten alphanumeric characters for the date. The current date will not be entered automatically. Note that the Reference Data Manager creates and maintains a separate revision management date on the basis of the current date and time which can be used in the reporting of reference data. Fluid Code (keyin list) — Define a default fluid code to be used for the piping materials class.
— OR —
Fluid Code Table (keyin list) — Key in the name of the Fluid Code Table for this piping materials class or select from a list of Fluid Code Tables (as defined in the approved Piping Job Specification Table Library). Materials of Construction (keyin) — Key in upt to six alphanumeric characters. Bend Deflect Table (keyin or list) — Key in the name of the Bend Deflection Table for this piping materials class or select from a list of Bend Deflection Tables (as defined in the approved Piping Job Specification Table Library). Pipe Length Table (keyin or list) — Key in the name of the Pipe Length Table for this piping materials class or select from a list of Pipe Length Tables (as defined in the approved Piping Job Specification Table Library). Standard Note Number (keyin or list) — Key in the note number in the Standard Note Library for this piping materials class or select from the list of standard notes (as defined in the approved Standard Note Library).
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5.3.3
Piping Commodity Data Command The Piping Commodity Data command can be used to create a piping commodity definition in Table 202 of the Material Reference Database or revise an existing piping commodity definition.
Options Create — Select the Piping Materials Class for the commodity item to be created from the list of piping materials classes (as defined in the Unapproved Material Reference Database) and select Accept. The system activates the Create Piping Commodity Specification Data form. Revise By Keyin — Key in the name of the piping materials class for the commodity item to be modified. Then select the piping commodity to be revised from the displayed List of Piping Commodities and select Accept. The system activates the Revise Piping Commodity Specification Data form with the data for the selected piping commodity. Revise By List — Select the piping materials class for the commodity item to be revised from the displayed list of piping materials classes and select Accept. Then select the piping commodity to be revised from the displayed List of Piping Commodities and select Accept. The system activates the Revise Piping Commodity Specification Data form with the data for the selected piping commodity. Copy — You can use the Copy option in conjunction with the Revise options as a cut-and-paste feature. This command requires that both the source piping materials class data and the destination piping materials class have been created. You can copy a complete piping materials class, including the piping commodity specification data or selectively copy specific commodities. Select the option for the items to be copied. Source and Destination Piping Materials Class - These are active fields that, when selected, display the piping materials class list. Select the source piping materials class from the displayed list, then select Accept. Select the destination piping materials class from the displayed list and select Accept.
Select From List - Select the source piping materials class from the displayed list and select Accept. Select the destination piping materials class from the displayed list and select Accept. Then select the piping commodity to be copied from the list of all piping commodities within the source piping materials class.
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Select All - This option copies the specification data for all piping commodities within the selected source piping materials class to the specified destination piping materials class.
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Select Gaskets - Select the source piping materials class from the displayed list and select Accept. Select the destination piping materials class from the displayed list and select Accept. The system copies the specification data for all gaskets within the source piping materials class to the destination piping materials class. Gaskets are recognized on the basis of the gasket commodity name, as specified through the Project Data Manager. Select Bolts - Select the source piping materials class from the displayed list and select Accept. Select the destination piping materials class from the displayed list and select Accept. The system copies the specification data for all bolts within the source piping materials class to the destination piping materials class. Bolts are recognized on the basis of the bolt commodity name, as specified through the Project Data Manager. Short Commodity Material Description ON/OFF — You can set this toggle to ON to verify that the material description for a specified commodity code has been defined in the Short Material Description Library. Long Commodity Material Description ON/OFF — You can set this toggle to ON to verify that the material description for a specified commodity code has been defined in the Long Material Description Library. If the Material Description toggle is set to ON and no corresponding material description is found for a specified commodity code, the system activates the Add Entry to Material Description Library form. See Add Entry to Material Description Library, page 128.
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5.3.3.1
Create/Revise Piping Commodity Specification Data The Create/Revise Piping Commodity Specification Data form is used to create or modify the definition of a piping commodity within a specified piping materials class. When creating a new definition, the system will jump to the input fields for the mandatory data. You must specify a value (by keyin or selection from a list) for all the mandatory fields.
Field Descriptions Refer to RDB Options File, page 105, for information on defining options for the applicable input fields. Refer to Piping Commodity Specification Data (202), page 67, for information on the attributes for the Piping Commodity Specification Data table. Where possible, the system verifies that the specified value is valid for the applicable piping materials class. For example, NPD values are checked against the associated diameters table in the approved Piping Job Spec Table Library. Commodity Type — This field can be used to select the type of piping commodity data to be created based on the settings in Standard Note Type 990 of the Standard Note Library. Piping Tubing Gaskets Bolts Nuts
5. Piping Job Specification
General Fittings Pipe Bends Orifice Flanges Branch Nipples Branch Reinforcement Valves
The system will modify the form fields to reflect the data that is specific to that type of component. The system stores the commodity type as the input_form_type within the Piping Commodity Specification Data Table of the Material Reference Database.
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Any input fields that are not used for a specific piping commodity type will be deactivated. The General Fittings category will allow input in all the input fields. This form is used for any piping commodity that does not fall within any of the other types.
General Fittings, Pipe Bends, Orifice Flanges, Branch Nipples, Branch Reinforcement, and Valves Commodity Name (keyin) From NPD - First Size (keyin) To NPD - First Size (keyin) End Preparation - First Size (list) Pressure Rating - First Size (keyin) — This data is automatically set to undefined (blank) for the branch reinforcement commodity type. Table Suffix - First Size (list) Schedule/Thickness - First Size (list) — Attribute 10. This data is automatically set to undefined (blank) for the branch reinforcement commodity type. Commodity Code (keyin) — Key in the commodity code for the piping commodity. When size-dependent commodity codes are required, this will represent a system commodity code and will be used by the Report Manager to reference the sizedependent commodity code in the Piping Commodity Size-Dependent Material Data Table. The system automatically translates the specified commodity code to be upper-case. You can use the Implied Data option to specify implied data for this piping commodity. Refer to Commodity Implied Data Command, page 140 for information on project-specific implied data. Refer to Implied Data, page 126 for information on class-specific implied data. The default is that implied data does not apply. For the revise command, the prefixes for implied data are not displayed as part of the commodity code, although the prefix will be loaded in the database. For implied data (project-wide or class-specific), the system will display the toggle setting rather than showing the prefix in the commodity code field. Model Code (keyin or list) — Attribute 19. Key in the model code or select the model code from a list of acceptable model codes (as defined by commodity name in the RDB options file). Geometric Industry Standard (list) Weight Code (list) fabrication category (list)
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Define the following data for any reducing components. This data will not apply to either the orifice flange or branch nipple commodity type. From NPD - Second Size (keyin) — Attribute 12. Key in the lowest second size for which this specification data applies. To NPD - Second Size (keyin) — Attribute 13. Key in the highest second size for which this specification data applies. You can optionally define the following fields when two ends of that component require different data. By PDS convention, if you specify a red End Preparation, you must specify the corresponding pressure rating, table suffix, and schedule/thickness. End Preparation - Second Size (list) Pressure Rating - Second Size (keyin) — This data is set to undefined (blank) for the branch reinforcement commodity type. Table Suffix - Second Size (list) Schedule/Thickness - Second Size (list) — This data is set to undefined (blank) for the branch reinforcement commodity type. The following data must be defined for the designated [component types]. The setting is stored in the modifier attribute. Bend Radius (keyin) [Pipe Bend] — Key in the bend radius for the pipe bend. Number of Taps (toggle) [Orifice Flanges] — Set the toggle for the number of taps (1 or 2) on the orifice flange. If applicable, set the orientation of the taps as 90 degrees or 180 degrees. This toggle only appears for orifice flanges that have two taps. Nipple Length (keyin) [Branch Nipples] — Key in length of the branch nipple. Reinforcement Data (toggle) [Branch Reinforcement] — Set the toggle for the source of the branch reinforcement data to By System or By User. If you select the by user branch reinforcement option, the commodity option code is automatically defined with a value of 699 (User-defined), as required by PDS.
Valve Operator Display (toggle) [Valves] — Set the toggle to ON or OFF to determine whether the valve operator is displayed in the model. Modifier (keyin) — You can define this value for specific piping commodities not covered by the previous list.
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Valve Operator (keyin or list) [Valves] — Key in the valve operator type or select the valve operator type from a list of valve operator types. The list of valve operator types and the corresponding descriptions are defined in the RDB options list.
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You can define the following optional data depending on your requirements. Commodity Option (list) — Attribute 4. Max Temperature (keyin) — Attribute 5. If no value is specified, the default value (undefined) is assigned automatically. Materials Grade (list) — Attribute 25. Standard Note Number (list) — Attributes 26 and 27. Select the note for this commodity from the list of standard notes defined in the approved Standard Note Library. PDS Sort Code (keyin) — Attribute 20. The specified value is automatically converted to upper-case.
Specification data for piping You must define the following data for piping. The piping commodity name is defined automatically, as specified through the Project Data Manager. From NPD - First Size (keyin) To NPD - First Size (keyin) End Preparation (list) Pressure Rating (keyin) Table Suffix (list) Schedule/Thickness (list) Joint Quality Factor (keyin) (For wall thickness calculations) — In lieu of the schedule/thickness, you can request that the wall thickness be computed automatically by the system by specifying the joint quality factor for wall thickness calculations. The system multiplies the joint quality factor by 100, add a *C prefix to designate that the default calculation is to be used, and loads the value into the schedule/thickness column. For example, if the joint quality factor is 0.95, this value will be ’*C095’. Note that this is not the joint quality factor that is to be used in the branch reinforcement calculations. Commodity Code (keyin) Model Code (toggle) — Set the toggle to By System (PIPE) or By User (*FPIPE). Geometric Industry Standard (list) Weight Code (list) Fabrication Category (list) You can optionally define the following data for piping.
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End Preparation - Second Size (list) Commodity Option (list) Max Temperature (keyin) E, Reinforcement (keyin) — Define the joint quality factor (E) for piping for which branch reinforcement calculations apply. The system multiplies the joint quality factor by 100 and loads it in the modifier column. This is not the joint quality factor that is to be used in the wall thickness calculations for the piping. Purchased Length (keyin) — You can key in the purchased length of the piping in sub-units. This value is stored in the PDS sort code attribute. Materials Grade (list) Standard Note Number (list) End Preparation - Other (list)
Specification data for tubing Define the following data for tubing. The tubing commodity name is defined automatically, as specified through the Project Data Manager. From NPD - First Size (keyin) To NPD - First Size (keyin) End Preparation - First Size (list) Pressure Rating - First Size (keyin) Table Suffix - First Size (list) Schedule/Thickness - First Size (list) Joint Quality Factor (keyin) Commodity Code (keyin) Geometric Industry Standard (list) Weight Code (list) Fabrication Category (list) You can optionally define the following data for tubing.
5. Piping Job Specification
End Preparation - Second Size (list) Commodity Option (list) Maximum Temperature (keyin) E, Reinforcement (keyin) Purchased Length (keyin) Materials Grade (list) Standard Note Number (list) End Preparation - Other (list)
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Specification data for gaskets Define the following data for gaskets. The gasket’s commodity name is defined automatically, as specified through the Project Data Manager. The system displays the active project’s selection of MTO options applicable to gaskets for reference. From NPD - First Size (keyin) To NPD - First Size (keyin) End Preparation - First Size (list) Pressure Rating - First Size (keyin) Table Suffix - First Size (list) Commodity Code (keyin) Gasket Thickness (keyin) — Key in the gasket thickness to be reported through the Report Manager. This value is loaded into the modifier column. You must define the following specification data for gaskets, when the alternate gasket search option has been enabled for MTO through the Project Data Manager. Otherwise, the input fields will be disabled. Alternate End Preparation (list) — Select from the list of end preparation values as defined in the approved Standard Note Library. Alternate Pressure Rating (keyin) — Key in up to eight characters to define the pressure rating. Alternate Table Suffix (list) — Select from the list of table suffix values as defined in the approved Standard Note Library. You can optionally define the following data on the basis of the user-specific requirements for gaskets. Commodity Option (list) Max Temperature (keyin) Fabrication Category (list) Materials Grade (list) Standard Note Number (list)
Specification data for bolts You must define the following data for bolts. The bolt’s commodity name is defined automatically, as specified through the Project Data Manager. The system displays the active project’s selection of MTO options applicable to bolts for reference. From NPD - First Size (keyin) To NPD - First Size (keyin) Pressure Rating - First Size (keyin) Table Suffix - First Size (list) Commodity Code (keyin) Bolt Extension (keyin)
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You can optionally define the following data on the basis of user-specific requirements for bolts. Commodity Option (list) Fabrication Category (list) Materials Grade (list) Standard Note Number (list)
Specification data for nuts You must define the following data for nuts. The commodity name is defined automatically, as specified through the Project Data Manager. Max Temperature (keyin) Commodity Code (keyin) You can optionally define the following data on the basis of user-specific requirements for nuts. Fabrication Category (list) Materials Grade (list) Standard Note Number (list)
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5.3.3.2
Implied Data When defining a piping commodity, you can select the Implied Data option to indicate that the commodity will have an associated implied item that will be included in MTO reports. After selecting the option, set the toggle to Class Specific. This option is intended for implied components that are not unique within the project. A lapjoint flange is an example of the primary component, where the stub-end is the implied component. Refer to Commodity Implied Data Command, page 140 for information on Project Specific implied data. When you select Accept to define a primary component, the system modifies the form display to allow you to define the specification data for the implied component.
When you accept the specification data for the implied component, the system prefixes an asterisk (*) to the commodity code of the primary component to indicate that implied data is present.
Field Descriptions The following specification data for the implied component are determined by the corresponding data for the primary component. This data is displayed in review only fields. Commodity Name — Same as the primary component. Commodity Option — The commodity option code for the implied component is set to the primary component’s commodity option code plus 5000.
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From NPD — same as the primary component. To NPD — same as the primary component. Model Code — same as the primary component. You can optionally define the following specification data for the implied component based on your reporting requirements. The values for the implied component default to the corresponding values for the primary component, except for the commodity code. End Preparation (list) Pressure Rating (keyin) Table Suffix (list) Schedule/Thickness (list) Commodity Code (keyin) — Key in the commodity code for the implied item. The system converts this value to upper-case. When size-dependent commodity codes are required, this will represent a somewhat arbitrary value, referred to as the system commodity code, and will be used by the Report Manager to reference the size-dependent commodity code. Geometric Industry Standard (list) Weight Code (list) Fabrication Category (list) Modifier (keyin) Max Temperature (keyin) Materials Grade (list) Standard Note Number (list) PDS Sort Code (keyin) — (optional). The system converts the value to upper-case.
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5.3.3.3
Add Entry to Material Description Library This form is used to define the material description for a specified commodity code in the appropriate Material Description Library (short, long, or specialty). Refer to Material Description Data, page 361, for more information on material descriptions.
Requirements The Material Description toggle must be set to ON. If you have defined size-dependent commodity codes, this option will be ignored, unless both of the following conditions are met: The option for MTO to use the system commodity code to reference the material description has been enabled through the Material Takeoff Options of the Project Data Manager. The material descriptions have been created with embedded commodity code labels as the means of inserting the size-dependent data into the material description.
Description — Key in the material description for the specified commodity code and select Accept. The system adds the specified entry to the Material Description Library.
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Piping Specialty Data Command
5.3.4
Piping Specialty Data Command The Piping Specialty Data command can be used to create a piping specialty definition in Table 203 of the Material Reference Database or revise an existing piping specialty definition. You can also add specialty descriptions to the Material Description Library.
Options Create — Select the type of specialty (Piping Specialty or Valves from the list. Then key in the component number for the specialty item to be created and select Accept. The system activates the Create Piping Specialty Specification Data form. Revise By Keyin — Key in the component number of the specialty to be modified and select Accept. The system activates the Revise Piping Specialty Specification Data form with the data for the selected piping specialty. Revise By List — Select the piping specialty to be revised from the displayed List of Piping Commodities and select Accept. The system activates the Revise Piping Specialty Specification Data form with the data for the selected piping specialty. Specialty Material Description — You can set this toggle to ON to verify that the material description for a specified commodity code has been defined in the Specialty Material Description Library. If no corresponding material description is found, the system activates the Add Entry to Material Description Library form. See Add Entry to Material Description Library, page 128.
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Create/Revise Piping Specialty Specification Data The Create/Revise Piping Specialty Specification Data form is used to create or modify the definition of a piping commodity within a specified piping materials class. When creating a new definition, the system will jump to the input fields for the mandatory data. You must specify a value (by keyin or selection from a list) for all the mandatory fields.
Field Descriptions Refer to RDB Options File, page 105, for information on defining options for the applicable input fields. Refer to Piping Specialty Specification Data (203), page 77, for information on the attributes for the Piping Specialty Specification Data table.
Mandatory Input Fields Piping Component Number (keyin) — Key in the piping component number, which uniquely identifies the piping specialty. The system verifies that the piping component number does not already exist in the Unapproved Material Reference Database. From NPD - First Size (keyin) — Key in the first size value for the piping specialty. Both the from and to values are loaded on the basis of this input. To NPD - First Size (keyin) — Key in the first size value for the piping specialty. Both the from and to values are loaded on the basis of this input. The TO NPD field is only visible if an applicable specialty type is selected.
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End Preparation - First Size (list) — Select from the list of end preparation values as defined in the approved Standard Note Library. Pressure Rating - First Size (keyin) — Key in up to eight characters to define the pressure rating. Table Suffix - First Size (list) — Select from the list of table suffix values as defined in the approved Standard Note Library. Schedule/Thickness (list) — Select from the list of schedule/thickness values as defined in the approved Standard Note Library. Model Code (keyin) — Key in the model code to be used to parametrically define the piping specialty. Physical Data ID (keyin) — Key in the ID to be used as an arbitrary index into the geometric data table for piping specialties. Sort Code (keyin) — Key in the sort code to be used as an arbitrary index into the geometric data table for piping specialties. The system will convert the value to uppercase. Fabrication Category (list) — Select from the list of fabrication category values as defined in the approved Standard Note Library. You must define the following data for any reducing component. NPD - Second Size (keyin) — Key in the second size value for the piping specialty. Both the from and to values are loaded on the basis of this input. You must define the following data for valves. This data is stored in the modifier attribute. Valve Operator (keyin or list) — Key in the valve operator type or select the valve operator type from a list of valve operator types (as defined in the RDB options file). Valve Operator Display ON/OFF (toggle) — Set the toggle to determine whether the valve operator will be displayed in the model.
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Specialty Type (field) — This field can be used to select the type of piping specialty data to be created based on settings in Standard Note Type 990 of the Standard Note Library. Place a data point in this field to activate the Spec Writer Data Form Type pick list, then select the preferred data type.
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The system stores the specialty type as the input_form_type within the Piping Specialty Data Table as a code-listed attribute for Standard Note Type 990.
Optional Input Fields You can optionally define the following data, when two ends of the component require different data. By PDS convention, if you specify the red end preparation, you must specify the corresponding pressure rating, table suffix, and schedule/thickness. End Preparation (list) Pressure Rating (keyin) Table Suffix (list) Schedule/Thickness (list) You can optionally define the following data depending on you requirements for piping specialties. Weight Code (list) Geometric Industry Standard (list) Modifier (keyin) Materials Grade (list) Standard Note Number (list)
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Instrument Data Command
5.3.5
Instrument Data Command The Instrument Data command can be used to create an instrument definition in Table 204 of the Material Reference Database or revise an existing instrument definition. You can also add descriptions to the Material Description Library.
Options Create — Select the type of instrument (Instruments or Valves) from the list. Then key in the component number for the instrument to be created and select Accept. The system activates the Create Instrument Specification Data form. Revise By Keyin — Key in the component number of the instrument to be modified and select Accept. The system activates the Revise Instrument Specification Data form with the data for the selected instrument. Revise By List — Select the instrument to be revised from the displayed List of Instruments and select Accept. The system activates the Revise Instrument Specification Data form with the data for the selected instrument. Specialty Material Description — You can set this toggle to ON to verify that the material description for a specified commodity code has been defined in the Specialty Material Description Library. If no corresponding material description is found, the system activates the Add Entry to Material Description Library form. See Add Entry to Material Description Library, page 128.
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5.3.5.1
Create/Revise Instrument Specification Data The Create/Revise Instrument Specification Data form is used to create or modify the definition of an instrument. When creating a new definition, the system will jump to the input fields for the mandatory data. You must specify a value (by keyin or selection from a list) for all the mandatory fields.
Field Descriptions Refer to RDB Options File, page 105, for information on defining options for the applicable input fields. Refer to Instrument Component Specification Data (204), page 81, for information on the attributes for the Instrument Specification Data table. Instrument Component Number (keyin) — Key in the component number, which uniquely identifies the instrument. The system verifies that the component number does not already exist in the Unapproved Material Reference Database. From NPD - First Size (keyin) — Key in the first size value for the instrument. Both the from and to values are loaded on the basis of this input. To NPD - First Size (keyin) — Key in the first size value for the instrument. Both the from and to values are loaded on the basis of this input. The TO NPD field is only visible if an applicable instrument type is selected. End Preparation - First Size (list) — Select from the list of end preparation values as defined in the approved Standard Note Library.
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Pressure Rating - First Size (keyin) — Key in up to eight characters to define the pressure rating. Table Suffix - First Size (list) — Select from the list of table suffix values as defined in the approved Standard Note Library. Schedule/Thickness (list) — Select from the list of schedule/thickness values as defined in the approved Standard Note Library. Model Code (keyin) — Key in the model code to be used to parametrically define the instrument. Physical Data ID (keyin) — Key in the ID to be used as an arbitrary index into the geometric data table for instruments. Sort Code (keyin) — Key in the code to be used as an arbitrary index into the geometric data table for instruments. The system will convert the value to upper-case. Fabrication Category (list) — Select from the list of fabrication category values as defined in the approved Standard Note Library. You must define the following data for any reducing component. NPD - Second Size (keyin) — Key in the second size value for the instrument. Both the from and to values are loaded on the basis of this input. Instrument Type (field) — This field can be used to select the type of instrument component data to be created based on settings in Standard Note Type 990 of the Standard Note Library. Place a data point in this field to activate the Spec Writer Data Form Type pick list, then select the preferred data type.
You can optionally define the following data, when two ends of the component require different data. By PDS convention, if you specify the red end preparation, you must specify the corresponding pressure rating, table suffix, and schedule/thickness. End Preparation (list) Pressure Rating (keyin) Table Suffix (list) Schedule/Thickness (list)
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The system stores the specialty type as the input_form_type within the Piping Specialty Data Table as a code-listed attribute for Standard Note Type 990.
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You must define the following data for valves. This information is stored in the modifier attribute. Valve Operator (keyin or list) — Key in the valve operator type or select the valve operator type from a list of valve operator types (as defined in the RDB options file). Valve Operator Display ON/OFF (toggle) — Set the toggle to determine whether the valve operator will be displayed in the model. You can optionally define the following data depending on your requirements for instruments. Weight Code (list) Geometric Industry Standard (list) Modifier (keyin) Materials Grade (list) Standard Note Number (list)
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Tap Properties Data Command
5.3.6
Tap Properties Data Command The Tap Properties Data command can be used to create a tap properties definition in Table 205 of the Material Reference Database or revise and existing tap properties definition.
Options Create — Key in the name of the tap table to be defined. The system activates the Create Tap Properties Data form. Revise By Keyin — Key in the name of the tap table to be modified. The system activates the Revise Tap Properties Data form with the data for the selected tap table. Revise By List — Select the tap table to be revised from the displayed List of Tap Properties Data (as defined in the Unapproved Material Reference Database) and select Accept. The system activates the Revise Tap Properties Data form with the data for the selected tap table.
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5.3.6.1
Create/Revise Tap Properties Data The Create/Revise Tap Properties Data form is used to create or modity the specification data for taps. When creating a new definition, the system will jump to the input fields for the mandatory data. You must specify a value for all the mandatory fields.
Field Descriptions Refer to RDB Options File, page 105 for information on defining list options for the applicable input fields. Refer to Tap Properties Data (205), page 85 for more information on the attributes for the Tap Properties Data. Tap Table Name (keyin) — Key in up to six characters for the table name. The combination of the tap properties table name, the tap nominal piping diameter, and the tap option code must be unique. Nom Piping Diameter (keyin) — Key in the nominal piping diameter for this tap properties definition. Tap Option (list) — Select from the list of tap option codes as defined in the approved Standard Note Library. If you do not select a tap option code, the default value (one) is assigned automatically. End Preparation (list) — Select from the list of end preparation values as defined in the approved Standard Note Library.
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Rating (keyin) — Key in up to eight characters to define the pressure rating. Schedule/Thickness (list) — Select from the list of schedule/thickness values as defined in the approved Standard Note Library. Tap Material Code (keyin) — During the tap properties data creation process, if the Short and Long Commodity Description toggles are set to ON, you are allowed to insert Tap Material Code data into the Short Material Description Library. This is the code that may optionally be used by MTO for appending the tap’s material description to that of the component which has been tapped. If you have defined size-dependent commodity codes, this option will be ignored, unless both of the following conditions are met: — The option for MTO to use the system commodity code to reference the material description has been enabled through the Material Takeoff Options of the Project Data Manager. — The material descriptions have been created with embedded commodity code labels as the means of inserting the size-dependent data into the material description. This form is used to define the material description for a specified commodity code in the appropriate (short) Material Description Library. Refer to Material Description Data, page 361, for more information on material descriptions.
The system converts the specified tap material code to upper-case, then adds the specified entry into the appropriate Material Description Libraries.
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Key in the material description for the specified commodity code and select Accept. This code must be a unique index into the project’s Material Description Libraries.
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5.3.7
Commodity Implied Data Command The Commodity Implied Data command defines the specification data for implied components in Table 212 or the Material Reference Database. These implied components are reported by MTO with the primary component in situations where the implied data is independent of the piping materials class (used throughout the project).
Options Create — Key in the system commodity code of the implied component to be created. The system activates the Create Piping Commodity Implied Material Data form. Revise By Keyin — Key in the name of the piping materials class for the commodity item to be modified. Then select the piping commodity to be revised from the displayed List of Piping Commodities and select Accept. The system activates the Revise Piping Commodity Specification Data form with the data for the selected piping commodity. Revise By List — Select the implied component definition to be revised from the displayed list of Commodity Implied Data and select Accept. The system activates the Revise Piping Commodity Implied Data form with the data for the implied component definition.
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5.3.7.1
Create/Revise Piping Commodity Implied Material Data The Create/Revise Piping Commodity Implied Material Data form is used to create or modify the definition of an implied component. When creating a new definition, the system will jump to the input fields for the mandatory data. You must specify a value (by keyin or selection from a list) for all the mandatory fields.
Field Descriptions Refer to RDB Options File, page 105 for information on defining list options for the applicable input fields. Refer to Piping Commodity Implied Material Data (212), page 91 for more information on the attributes for the Piping Commodity Implied Material Data table. System Commodity Code — Key in the commodity code for the primary component. The system converts the value to upper-case.
From Diameter (First Size) — Key in the lowest first size value for which this implied specification data applies. To Diameter (First Size) — Key in the highest first size value for which this implied specification data applies. The to value must equal or exceed the from value.
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For this type of implied data to be reported with the primary component, the specification data for the primary component must have enabled the option in each piping materials class for which this implied data applies.
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From Diameter (Second Size) — For reducing components, key in the lowest second size value for which this implied specification data applies. In cases where the piping commodity represents both a full-size component and a reducing component, this value should equal the corresponding first size NPD. Otherwise, for a reducing component, this value must be less than the corresponding first size value. To Diameter (Second Size) — For reducing components, key in the highest second size value for which this implied specification data applies. The to value must equal or exceed the from value. Commodity Code (keyin) — During the commodity implied data creation process, if the Short and Long Commodity Description toggles are set to ON, you are allowed to insert Commodity Code data into the Short and Long Material Description Libraries. If you have defined size-dependent commodity codes, this option will be ignored, unless both of the following conditions are met: — The option for MTO to use the system commodity code to reference the material description has been enabled through the Material Takeoff Options of the Project Data Manager. — The material descriptions have been created with embedded commodity code labels as the means of inserting the size-dependent data into the material description. This form is used to define the material description for a specified commodity code in the appropriate Material Description Library (short or long). Refer to Material Description Data, page 361, for more information on material descriptions.
Key in the material description for the specified commodity code and select Accept. This code must be a unique index into the project’s Material Description Libraries.
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The system converts the specified commodity code to upper-case, then adds the specified entry into the appropriate Material Description Libraries. Quantity (keyin) — Key in a whole number or a decimal value for the quantity of the implied component per primary component. Fabrication Category (list) — Select from the list of fabrication category values as defined in the approved Standard Note Library. Standard Note Number (list) — You can optionally select from the list of standard notes as defined in the approved Standard Note Library.
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5.3.8
Table Checker You can use the Table Checker option to perform on-line Table Checker validation for the defined piping commodity specification data. When this option is enabled, table checker validation will be performed for all piping commodities, except: implied data specific to the piping materials class gaskets bolts nuts When you enable this option, the system displays a list of the defined Table Checker reports for the project. Select the report validation to be performed and select Accept.
Refer to Table Checker Form, page 389 for more information on creating a Table Checker report definition.
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Piping Job Specification Manager
5.4
Piping Job Specification Manager This command enables you to load all of the database tables which make up the Piping Job Specification portion of the Material Reference Database. You can also extract neutral files of the data contained in the Material Reference Database.
Before Using This Command Refer to the Project Administrator Reference Guide for information on creating a project and creating the approved and unapproved Specification/Material Reference Database. You must have installed the applicable reference database files (such as USRDB or DINRDB). Use the Default Project Control Data option to set default settings for Piping Spec Path and Piping Spec Node to point to the location of the neutral files. The default settings are maintained in the Project Control Database. You can also change these settings during the operation of the Piping Job Spec Manager. However, such changes are temporary; they will not update the default locations.
Operating Sequence 1.
Select the Piping Job Specification Manager option from the Reference Data Manager form. The system displays the Piping Job Specification Manager main form used to select the type of data to process.
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The data manipulation procedure for each of the database tables is similar. You can perform the following activities for each of the entities. 2.
Select Option Select Unapprove ==> Approve to post the data from the unapproved Specification/Material Reference Database to the approved database.
Accept to Create New Records or Exit Toggle between Submit Immediately to submit the report for immediate processing, or Delayed Submit to specify a time to submit the report for delayed processing. When delayed submission is selected, you will be prompted Accept Time or Respecify Submit Time. Enter the day, hour, and minute, then select AM or PM.
— OR —
Select the command for the database table to be loaded. The system displays the options for the selected item. The following illustration reflects the screen for Piping Materials Class.
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Select Option Select the option for the type of action to be performed. Load, Replace, or Replace Commodity Subset from a neutral file. See page 148. Delete existing entries. See page 151. Report on the entity data (create a neutral file). See page 152
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5.4.1
Load, Replace, and Replace Commodity Subset Options These options enable you to load entries from a neutral ASCII file into the Material Reference Database. The Replace Commodity Subset option is only available for the Size Dependent Material Data and Project Implied Material Data commands.
Refer to the database descriptions earlier in this section for a listing of the neutral file formats used in defining the delivered PJS and material data. Load adds the contents of the neutral file(s) to the information currently in that database table of the Specification/Material Reference Database. Replace deletes all entries in the respective database table and then loads new entries from the neutral file. Replace Commodity Subset revises (deletes and replaces) previously created sizedependent or implied commodity data for a specific commodity or group of commodity codes specified in a neutral file. This option is only available for the Size Dependent Material Data and Project Implied Material Data commands. The neutral files for the delivered USRDB data are in the directory \win32app\ingr\rdusrdb\spec_data classes.pmc — the neutral file for the Piping Materials Class Data. *.pcd — The neutral files for the Piping Commodity Data are stored in a set of files of the format pmcname.pcd. (For example, 1c0031.pcd defines all the commodity items for piping materials class 1c0031.) list.pcd — a file that lists the neutral file names of all the delivered pcd files for the different piping materials classes. taps.data — the neutral file for Tap Properties Data. implied.data — the neutral file for Project Implied Material Data. A set of sample neutral files are delivered in the directory \win32app\ingr\pddata\sample\data specialty.data — a sample neutral file for Piping Specialty Data. instrment.data — a sample neutral file for Instrument Data.
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pcd_size.data — a sample neutral file for Size Dependent Material Data. You can copy the files and make changes before loading the information into the database.
Before Using This Command You can define the variable PD_COMMIT_INTERVAL= in the control.sh file to control the commit interval in loading specification data into the Material Reference Database. This has the same impact as adjusting the -c option in a risload command line. The default commit value is 25. Increasing this variable may improve performance.
Operating Sequence 1.
Select the Load/Replace (or other load or replace) option. See the description above, for differences in Load, Replace, and Replace Commodity Subset.
2.
Specify Neutral File Name Key in the file specification for the neutral file that contains the data to be copied. For Piping Commodity Data you can load or replace a single file or a list of files. To process a list of files, create a list file which list each neutral file on a separate line. The file list.pcd contains a list of all the delivered neutral files. For Size-Dependent or Implied Commodity Data, you can replace specific commodity codes or all the entries in the database. To replace specific commodity codes, create a neutral files which contains only the commodity codes to be replaced. For the Load option, the system displays a dialog box to indicate that the data loaded will be appended to existing data. Select Accept to continue.
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Set the toggle to Submit Immediately or Delayed Submit. For Delayed Submit, set the time to process the neutral file(s).
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4.
Accept to Create New Records or Exit Select Accept to begin processing the request. Job Has Been Submitted The system submits the load/replace request as a batch job. Once the job is completed the system sends a mail message indicating the completion status of the load (successful or unsuccessful). The system also creates a set of log files in the \tmp directory. pmc.log — Piping Materials Class Data pcd.log — Piping Commodity Data specialty.log — Piping Specialty Data instrument.log — Instrument Data taps.log — Tap Properties Data pcd_size.log — Size-Dependent Material Data implied.log — Project Implied Material Data
These log files contain the following information. The name of the neutral file being loaded The completion status of the load (successful or unsuccessful) The line number that caused the failure if the neutral file was not loaded.
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Delete Option
5.4.2
Delete Option This option enables you to delete entries from the Piping Job Specification.
Operating Sequence 1.
Select the Delete option. The system displays a list of all the items in the database for the selected class of data.
2.
Select the item to be deleted from the database.
3.
Accept to Delete Materials Class Select Accept to begin deleting the data.
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5.4.3
Report Option The Report options enable you to create neutral files using the information in the Specification/Material Reference database. The order and field lengths of the data in the neutral file is determined by a format file named spec_order.max. This format file is expected to reside in the same network address and directory specified for the report output. A default format file is delivered with the PD_Data product in the file \win32app\ingr\pddata\sample\format\spec_order.max. If the spec_order.max file is not found at the specified output directory, the system will use the default spec order. If an unapproved Specification/Material Reference database exists for the active project, you can select the database to process: approved or unapproved.
Operating Sequence 1.
Select the Report option from one of the data forms (such as the Piping Commodity Data form). For Piping Commodity Data select the appropriate PCD from the list.
2.
Specify Neutral File Name Key in the name of the neutral file to be created. You can change the Node Name and File Path information.
3.
Set the toggle to Submit Immediately or Delayed Submit. For Delayed Submit, set the time to process the neutral file(s).
4.
Accept to Create Report Select Accept to create the specified neutral file. Job Has Been Submitted The system creates the neutral file and a log file named specmgr.log.
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Example spec_order.max File ! ! ! ! ! ! ! ! 201 202 203 204 205 211 212
= = = = = = =
This file contains the spec attribute order and their maximum attribute lengths required for creating spec output neutral files. When creating spec reports the system will default an attribute order and set of attribute lengths. The user can edit these attribute orders and lengths in this file ( spec_order.max ). If this file is in the directory where the software is being run the orders defined in this file will be used as the default attribute order and lengths. 2,16 3,3 4,3 5,10 6,7 7,7 8,8 9,6 10,6 11,6 12,6 13,6 14,6 15,6 16,6 17,6 18,8 19,6 20,6 3,6 4,6 5,7 6,6 7,6 8,6 9,8 10,8 11,8 12,8 13,8 14,8 15,8 16,8 17,6 18,16 19,6 20,6 21,7 22,6 23,6 24,6 25,6 26,6 27,6 2,20 3,6 4,6 5,8 6,8 7,6 8,8 9,8 10,6 11,8 12,8 13,8 14,8 15,8 16,6 17,8 18,6 19,7 20,6 21,6 22,6 23,6 24,6 25,6 2,20 3,6 4,6 5,8 6,8 7,6 8,8 9,8 10,6 11,8 12,8 13,8 14,8 15,8 16,6 17,8 18,6 19,7 20,6 21,6 22,6 23,6 24,6 25,6 3,8 4,6 5,8 6,8 7,8 8,10 2,16 3,8 4,8 5,8 6,8 7,16 8,8 9,8 10,8 2,16 3,8 4,8 5,8 6,8 7,16 8,8 9,6 10,6
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5.5
Piping Job Spec Report Manager This command activates the Piping Job Spec Report Manager form. It is used to generate reports from the Specification/Material Reference Database with the report definition data. The Piping Job Spec Report Manager stores the report record and location records for each discrimination data file and format file in the Project Control Database. The numbered records are used to locate ASCII files on their specified nodes.
Options Report Format — Displays the Report Format form, which you can use to create, revise, copy, or delete the record of a format file (not the format file). For more information, see Report Format Form, page 157. Report Discrimination Data — Displays the Discrimination Data form, which you can use to create, revise, copy, or delete the record of a discrimination data file as well as the file itself. For more information, see Report Discrimination Data Form, page 163. Report — Displays the Report form, which you can use to create, revise, delete, and approve report records and report files. For more information, see Report Form, page 173. Report Management Data — Displays the Report Management Defaults form, which you can use to create a record in the project control database of the default nodename and path for the report definition files. This option is primarily used for setup. For more information, see Report Management Defaults Form, page 186.
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Using the Report Commands
5.5.1
Using the Report Commands Understanding Report Files and Records The Piping Job Spec Report Manager uses the discrimination data files, format files, and database records that represent these files to generate reports. The following definitions explain all of the files and records in the reporting process.
Format File and Record The format file is a user-defined, ASCII file which must be created with a text editor outside of the Piping Job Spec Report Manager. It contains special indices identifying what data appears in the report and how the data is sorted. It also defines how the data is formatted in the report. Without the format file(s), Piping Job Spec Report Manager reports cannot be processed. A set of basic format files is delivered for each type of reporting. Using the Report Format option, you can create a numbered record for each format file so that it can be accessed for report processing. The format record is a record in the Project Control Database used to name and locate a specific format file. Unlike the format file, the format record is created interactively. It is called a record to classify it as a block of data that is used for report processing but is not an actual file.
Discrimination Data File and Record The discrimination data file limits the report to only the specified database occurrences. It is an ASCII file that is created interactively using the Piping Job Spec Report Manager. The discrimination data record is a record in the Project Control Database used to name and locate a specific discrimination data file. There is a uniquely-numbered record for each discrimination data file so that it can be accessed for report processing. This is the same way that the format record is used to access a format file.
Report Output and Record
The report record names or defines locations for all of the files that are necessary to generate a report, including the report output. (It is called a record to classify it as a block of data that is used for report processing but is not an actual file.)
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The Piping Job Spec Report Manager creates a report using the specified format,discrimination, and search criteria data files, and places it in the specified directory on the specified node.
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Group Workflow There is a definite workflow for at least the first time you create a report. First, use the Report Management Data option to specify defaults for the nodename and path of the report definition files. By defining the defaults first, you can prevent keying in a nodename and path on each form. If you want to use a different nodename or path than the defined default, simply place a data point in that field and key in the modification. The following steps can be done in any order: create your format record, discrimination data record, and discrimination data file using the Report Format and Report Discrimination Data options. Reports cannot be generated until the format file, the discrimination data file, and their corresponding records have been established. Finally, use the Report option to create the actual report.
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Report Format Form
5.5.2
Report Format Form When you select the Report Format option from the Piping Job Spec Report Manager form, the Report Format form is displayed.
This form enables you to create, copy, revise, or delete a record of the location of the format file in the project control database. An option is also provided that enables you to copy a record and its corresponding ASCII format files. The format file defines the data that will be reported and the way in which that data will be displayed. Reports cannot be generated unless a format file exists and a record of the file’s location has been entered into the project control database.
Options
Copy — Displays the Format Creation/Revision form, which copies the record of an existing format file from the project control database along with the corresponding ASCII format file. For more information, see Format Creation/Revision Form, page 159. Revise — Displays the Format Creation/Revision form, which modifies a record of an existing format file in the project control database. For more information, see Format Creation/Revision Form, page 159.
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Create — Displays the Format Creation/Revision form, which enables you to add a new record of a format file in the project control database. For more information, see Format Creation/Revision Form, page 159.
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Delete — Displays the Deletion form, which deletes an existing record of a format file from the project control database. If the record of the format file is deleted, reporting cannot be performed. For more information, see Format Deletion Form, page 161.
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Format Creation/Revision Form
5.5.2.1
Format Creation/Revision Form When you select Create, Copy, or Revise from the Report Format form, the Piping Job Spec Report Manager form is displayed.
This form creates, copies, or revises a record in the project control database; this record defines the location of a format file. The format file itself defines the contents and format of the report. Both the location specification and the format file must exist to report on PDS data.
Field Descriptions Number — A unique number of up to 24 characters. Specifies the short name in the project control database used to identify the record of the format file. Description — A description of up to 40 characters for the format file. File Specification — The file name of the format file to reference. File Path — The disk location of the format file. This field retains the active setting. File Node — The nodename of the system on which the format file is located. This field retains the active setting.
You must have created an ASCII format file. A set of basic format files is delivered with the PD_Report product in the win32app\ingr\pddata\sample\format directory. The file for Spec Reporting reporting is named piping_rdb.fmt. For more information on the delivered sample format files, see the PD_Report User’s Guide.
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Before Using this Form
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Operating Sequence 1.
Select Create, Copy, or Revise. A list of available records displays for copy or revision. To create a database record, go to Step 3.
2.
Select Report Format From the displayed list, select the record to be copied or revised. Then select Accept. Key-in fields are displayed for you to specify the required database information.
3.
Specify Report Format Data Type information in each of the displayed fields, taking care to press return in each field. Then select Accept. The project control database is updated.
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Format Deletion Form
5.5.2.2
Format Deletion Form When you choose Delete, the Deletion form is displayed.
This form deletes a report record from the project control database and can optionally delete the associated file. This form is used with format files and their database records, discrimination data files and their database records, and search criteria files and their database records.
Fields and Options Number/Description — Displays the 24-character short name and the 40-character description of a report record in the project control database. Delete File/Do Not Delete File — Determines whether the associated file is deleted. When set to Delete File, the database record is deleted along with the associated file. When set to Do Not Delete File, only the database record is deleted.
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Operating Sequence 1.
Select Report Format From the displayed list, select the database record to be deleted.
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2.
Set the Delete File/Do Not Delete File toggle as needed. Then click Accept. The specified record is deleted. If specified, the associated file is also deleted.
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Report Discrimination Data Form
5.5.3
Report Discrimination Data Form When you select Report Discrimination Data from the Report Manager form, the Discrimination Data form is displayed.
This form creates, copies, revises, and deletes a discrimination data file from the specified directory. The associated record in the project control database is also copied, revised, or deleted as needed. A discrimination data file is an ASCII file that designates which models will be included in a report. That is, discrimination data specifies the scope of the report. The project control database record specifies the name and location of the discrimination data file that is to be associated with a specific report.
Options
Copy — Displays the Discrimination Data Revision form, which copies an existing data file. The associated project control database record is also copied. For more information, see Discrimination Data Revision Form, page 169. Revise — Displays the Discrimination Data Revision form, which modifies discrimination data. You can use this option to revise the contents of the discrimination data file, the location of the discrmination file, and the associated record in the project control database. For more information, see Discrimination Data Revision Form, page 169.
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Create — Displays the Discrimination Data Creation form, which creates a new discrimination data file. The associated project control database record is also created. For more information, see Discrimination Data Creation Form, page 165.
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Delete — Displays the Deletion form, which deletes a discrimination data file as well as its associated record in the project control database. For more information, see Discrimination Data Deletion Form, page 171.
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Discrimination Data Creation Form
5.5.3.1
Discrimination Data Creation Form
Commands Approved Piping Job Spec — Defines the database to be reported: approved or unapproved. Search Criteria — Defines search criteria for specified attributes in the Specification/Material Reference Database.
Field Descriptions Number — Key in a unique number to name the discrimination data record to be created by discrimination. The number can be up to 24 characters in the Project Control Database. This number is a short name to identify the record of the discrimination data file.
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Description — Key in a description of the discrimination data file with up to 40 characters in the Project Control Database. File Specification — Key in the filename of the discrimination data file to create. The system verifies that the file does not already have a record in the project.
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File Path — Displays the disk location of the discrimination data file. This field retains the active setting. File Node — Displays the nodename where the discrimination data file is located. This field retains the active setting.
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Search Criteria Form
5.5.3.2
Search Criteria Form You can define search criteria to restrict the elements to be reported based on database attributes. The default is no search criteria. This option enables you to define search criteria for specified attributes in the Spec Database. If you do not restrict the piping materials class attribute for Piping Commodity Data, all piping materials classes will be reported.
Operating Sequence 1.
Select the Search Criteria option from the Discrimination Data form.
2.
Select Entity Select the database entity that contains the data to be restricted. The system displays the attributes for the selected entity.
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3.
Select Attribute Select the attribute to be restricted. The system displays the selected attribute and displays a list of operators.
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4.
Select Operator Select the required operator to define the search criteria. The system displays the selected operator and prompts you to key in an attribute value.
5.
Enter Attribute Value Key in the attribute value. For a sub-string search, key in a string to appear anywhere within the attribute value (do not use wild cards). If the attribute is code-listed, the system displays a list of values from the standard note library. Select the value and select Accept. The system validates the input and displays the defined search criteria.
6.
Accept or Select And/Or Operator Select AND to specify an additional condition or select OR to specify an alternative condition.
— OR — Accept the defined search criteria.
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Discrimination Data Revision Form
5.5.3.3
Discrimination Data Revision Form When you select Copy or Revise from the Discrimination Data form, the Discrimination Data Revision form displays. This form enables you to copy or revise a discrimination data file from the specified directory and its record from the Project Control Database. The copied discrimination data file can then be modified. First, the system displays the Record Number display list as shown below on the left. After you select and Accept the discrimination data file you need, the system then displays the discrimination data identification fields. These fields are used to define the record as shown below on the right.
Commands Approved Piping Job Spec — Defines the database to be reported: approved or unapproved. Search Criteria — Defines search criteria for specified attributes in the Specification/Material Reference Database.
Field Descriptions
Description — Key in a description of the discrimination data file with up to 40 characters in the Project Control Database. File Specification — Key in the filename of the discrimination data file to reference.
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Number — Key in a unique number to name the discrimination data record with up to 24 characters in the Project Control Database. This number is a short name to identify the record of the discrimination data file.
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The system verifies that the file does not already have a record in the project. File Path — Displays the disk location of the discrimination data file. This field retains the active setting. File Node — Displays the nodename where the discrimination data file is located. This field retains the active setting. If prompted to... Select Discrimination Data Specify Discrimination Data
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Do this: Select the record number of the discrimination data file to revise and select Accept. Key in any changes to the discrimination data record displayed in the information fields, and select as many of the Discrimination Data options as necessary to define the discrimination data file.
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Discrimination Data Deletion Form
5.5.3.4
Discrimination Data Deletion Form When you choose Delete, the Deletion form is displayed.
This form deletes a report record from the project control database and can optionally delete the associated file. This form is used with format files and their database records, discrimination data files and their database records, and search criteria files and their database records.
Fields and Options Number/Description — Displays the 24-character short name and the 40-character description of a report record in the project control database. Delete File/Do Not Delete File — Determines whether the associated file is deleted. When set to Delete File, the database record is deleted along with the associated file. When set to Do Not Delete File, only the database record is deleted.
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Operating Sequence 1.
Select Report Format From the displayed list, select the database record to be deleted.
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2.
Set the Delete File/Do Not Delete File toggle as needed. Then click Accept. The specified record is deleted. If specified, the associated file is also deleted.
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Report Form
5.5.4
Report Form When you select Report from the Report Manager form, the Report form is displayed.
This form creates, revises, and deletes report records and report files. A report record holds specifications for a report; these specifications include the report name, the report description, and which format file, discrimination data file, and search criteria data file to use to generate a report. The report name is not the title that is printed on the report; the title is included in the format file. At the end of each report, a parameters page is included that contains the following information: Report Output — The report number, report title, report creation/revision date, and report node, path, and file name.
Discrimination Data — The report discrimination data number, description, and file location (network address, path, and file name). The following discrimination data is also included: list of model numbers (with discipline), volume (if applicable), search criteria (if applicable), and sorting sequence. Search Criteria — The report search criteria number, description, and file location (node, path, and file name. The following search criteria data is also included: list of model numbers (with discipline), volume (if applicable), search criteria (if applicable), and sorting sequence.
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Format — The report format number, description, and node, path, and file name.
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Options Create — Displays the Report Creation form, which creates a report record and generates a report. For more information, see Report Creation Form, page 175. Revise — Displays the Revise Report form, which regenerates a report from an existing or revised report record. For more information, see Revise Report Form, page 178. Delete — Displays the Deletion form, which deletes an existing report record and the corresponding report. For more information, see Report Deletion Form, page 181. Approve — Displays the Report Approval form, which approves an existing report. For more information, see Report Approval Form, page 183. Multi-Create — Displays the Report Multiple Submit form, which submits multiple reports to the printer. For more information, see Report Multiple Submit Form, page 184.
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Report Creation Form
5.5.4.1
Report Creation Form When you select Create from the Report form, the Report Creation form is displayed.
Use this form to create a report record and to generate a report. Because report records are stored in the project control database, you can use them repeatedly.
Fields and Options Report Number — The 24-character number that uniquely identifies the record of the report file in the project control database. This is sometimes referred to as the report file short name. Report Title — The 40-character descriptive name of the report file. This is not the title in the actual report, but is rather the title of the report record. The title of the report is contained in the format file.
Report File Path — The disk location for the report output file. This field retains the active settings, and it is automatically populated if you have specified this data on the Report Management Dataform. For more information, see Report Management Defaults Form, page 186. Report Node — The name of the system on which the report output file will be located. This field retains the active settings, and it is automatically populated if you have specified this data on the Report Management Data form. For more information, see Report Management Defaults Form, page 186.
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Report File Spec — The name of the report output file (up to 14 characters).
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Report Format File — The name of the format file to be used to generate the active report. When you select this field, a list of available format files is displayed. Select the appropriate format file, and click Accept. Report Discrimination File — The name of the discrimination data file to be used to generate the active report. When you select this field, a list of available discrimination data files is displayed. Select the appropriate discrimination data file, and click Accept. Report Search Criteria — The name of the search criteria data file to be used to generate the active report. When you select this field, a list of available search criteria files is displayed. Select a search criteria file, and click Accept. Select this field a second time to specify a different search criteria file. To clear a specification, click Accept without selecting a file. If the report discrimination data selected for the active report has search criteria data defined within it, and you specify a search criteria in this field, the search criteria specified in the Report Search Criteria field takes precedence over the search criteria contained in the discrimination data. Revision Number – The revision number (up to three characters) for the report. Last Revision Number — The revision number of the last report generated. This is a read-only field; you cannot edit it. Revised By — The user (up to five characters) who checked the report. This field is optional. Revision Description — The description (up to 40 characters) of the report revision. This field is optional. Print/Delete — Submits the report output file to the specified print queue and then deletes the report output file. When you select this option, a list of available print queues is displayed. Click on a queue to select it. Print/Save — Submits the report output file to the specified print queue and saves the report output file. When you select this option, a list of available print queues is displayed. Click on a queue to select it. Save — Saves the report output file without printing the report. Submit Immediately/Submission is Delayed — Specifies when the report will be processed. When this toggle is set to Submission is Delayed, additional fields display for you to specify the date and time that the report is to be generated.
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Operating Sequence 1.
From the Report form, select Create. The Report Creation form is displayed.
2.
Specify Report Data Key in the report record information. Then select the appropriate report format file, discrimination data file, and search criteria data file.
3.
Select the appropriate print/save/delete option, and select a queue if the report is to be printed.
4.
Specify whether the report is to be generated now (Submit Immediately) or later (Submission is Delayed). If you choose delayed submission, specify the date and time that the report is to be submitted.
5.
Click Accept to save the report file.
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5.5.4.2
Revise Report Form When you select Revise from the Report form, the Revise Report form is displayed.
This form revises an existing report record and generates a report from the project control database. An option is also provided to update (in some cases) the report record without generating a report output file. Similarly, you can choose to generate an updated report output file without updating the report record.
Fields and Options Report Number — The 24-character number that uniquely identifies the record of the report file in the project control database. This is sometimes referred to as the report file short name. Report Title — The 40-character descriptive name of the report file. This is not the title in the actual report, but is rather the title of the report record. The title of the report is contained in the format file. Report File Spec — The name of the report output file (up to 14 characters). Report File Path — The disk location for the report output file. This field retains the active settings. Report Node — The name of the system on which the report output file will be located. This field retains the active settings. Report Format File — The name of the format file to be used to generate the active report. When you select this field, a list of available format files is displayed. Select the appropriate format file, and click Accept. Report Discrimination File — The name of the discrimination data file to be used to generate the active report. When you select this field, a list of available discrimination data files is displayed. Select the appropriate discrimination data file, and click Accept.
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Report Search Criteria — The name of the search criteria data file to be used to generate the active report. When you select this field, a list of available search criteria files is displayed. Select a search criteria file, and click Accept. Select this field a second time to specify a different search criteria file. To clear a specification, click Accept without selecting a file. If the report discrimination data selected for the active report has search criteria data defined within it, and you specify a search criteria in this field, the search criteria specified in the Report Search Criteria field takes precedence over the search criteria contained in the discrimination data. Revision Number – The revision number (up to three characters) for the report. Last Revision Number — The revision number of the last report generated. This is a read-only field; you cannot edit it. Revised By — The user (up to five characters) who checked the report. This field is optional. Revision Description — The description (up to 40 characters) of the report revision. This field is optional. Print/Delete — Submits the report output file to the specified print queue and then deletes the report output file. When you select this option, a list of available print queues is displayed. Click on a queue to select it. Print/Save — Submits the report output file to the specified print queue and saves the report output file. When you select this option, a list of available print queues is displayed. Click on a queue to select it. Save — Saves the report output file without printing the report. Submit to Batch Immediately/Delayed Submit to Batch — Specifies when the report will be processed. When this toggle is set to Delayed Submit to Batch, additional fields display for you to specify the date and time that the report is to be generated.
If you update any field other than Report Number and Report Title, this toggle is automatically set to Revise Report and Data, and the report output file is generated.
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Revise Data Only/Revise Report and Data — Specifies revision of the report data only (Revise Data Only) or revision of the report data and the report output file (Revise Report and Data). To revise the report specification without updating the report output file, make the necessary changes, set this toggle to Revise Data Only, and click Accept. To revise the report output file only, set this toggle to Revise Report and Data without modifying any of the fields, and click Accept. To modify both the report file and the report output file, make the necessary changes, set this toggle to Revise Data Only, and click Accept.
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Operating Sequence 1.
From the Report form, select Revise. The Report Creation form is displayed with a list of available report files.
2.
Select Report From the displayed list, select the report to be revised. Then click Accept. The fields update to display the selected report file specifications.
3.
Revise Report Information Update the report record information as needed.
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4.
Select the appropriate print/save/delete option, and select a queue if the report is to be printed.
5.
Specify whether the report is to be generated now (Submit Immediately) or later (Submission is Delayed). If you choose delayed submission, specify the date and time that the report is to be submitted.
6.
Click Accept to save the report file.
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Report Deletion Form
5.5.4.3
Report Deletion Form When you choose Delete, the Deletion form is displayed.
This form deletes a report record from the project control database and can optionally delete the associated file. This form is used with format files and their database records, discrimination data files and their database records, and search criteria files and their database records.
Fields and Options Number/Description — Displays the 24-character short name and the 40-character description of a report record in the project control database. Delete File/Do Not Delete File — Determines whether the associated file is deleted. When set to Delete File, the database record is deleted along with the associated file. When set to Do Not Delete File, only the database record is deleted.
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Operating Sequence 1.
Select Report Format From the displayed list, select the database record to be deleted.
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2.
Set the Delete File/Do Not Delete File toggle as needed. Then click Accept. The specified record is deleted. If specified, the associated file is also deleted.
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Report Approval Form
5.5.4.4
Report Approval Form When you select Approve from the Report form, the Report Approval form is displayed.
Use this form to select a report to approve. Approving a report means that a database attribute is set from not approved (the default) to approved. This approval status provides a way for you to flag reports that you have run and verified that the output data is valid. When a report is revised, the approval status is automatically reset to not approved.
Options Number — The 24-character unique name (also called short name) of the report record. Description — The 40-character description of the report record.
Operating Sequence 1.
From the Report form, select Approve. The Report Approval form is displayed.
2.
From the displayed list, select a report to approve. Then click Accept.
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The Approval form is displayed. For more information, see the Approve Report section of the PD_Report User’s Guide.
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5.5.4.5
Report Multiple Submit Form When you select Multi-Create from the Report form, the Report Multiple Submit form is displayed.
Use this form to submit multiple reports at the same time.
Fields and Options Number — The 24-character number that uniquely identifies the record of the report file in the project control database. This is sometimes referred to as the report file short name. Description — The 40-character descriptive name of the report file. Print/Delete — Submits the report output file to the specified print queue and then deletes the report output file. When you select this option, a list of available print queues is displayed. Click on a queue to select it. Print/Save — Submits the report output file to the specified print queue and saves the report output file. When you select this option, a list of available print queues is displayed. Click on a queue to select it. Save — Saves the report output file without printing the report. Submit to Batch Immediately/Delayed Submit to Batch — Specifies when the report will be processed. When this toggle is set to Delayed Submit to Batch, additional fields display for you to specify the date and time that the report is to be generated.
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Operating Sequence 1.
From the Report form, select Multi-Create. The Report Multiple Submit form is displayed.
2.
Select Reports for Submission From the displayed list, select the reports to submit. Highlighed reports are selected; select a highlighted report to remove the highlight and to not submit the report.
3.
Select the appropriate print/save/delete option, and select a queue if the report is to be printed.
4.
Specify whether the report is to be generated now (Submit to Batch Immediately) or later (Delayed Submit to Batch). If you choose delayed submission, specify the date and time that the report is to be submitted.
5.
Click Accept to submit the reports.
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5.5.5
Report Management Defaults Form When you select Report Management Data from the Report Manager form, the Report Management Defaults form is displayed.
This form creates a record in the project control database of the node name and path of the report definition files. This option is used primarily for setup.
Fields Report Path — Specifies the default path of the report output files. It is recommended that you not send output reports to your system’s temporary (that is, tmp or temp) directory. Report Node — Specifies the default node name of the system on which report output files are located. Report Format Path — Specifies the default path of the format files. Report Format Node — Specifies the default node name of the system on which format files are located. Report Discrimination Data Path — Specifies the default path of the discrimination data files.
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Report Discrimination Data Node — Specifies the default node name of the system on which discrimination data files are located. Report Search Criteria Data Path — Specifies the default path of the report search criteria data files. Report Search Criteria Data Node — Specifies the default node name of the system on which report search criteria data files are located.
Operating Sequence 1.
From the Report Manager form, select Report Management Data. The Report Management Defaults form is displayed.
2.
Accept or Exit In the fields provided, key in the default paths and node names for the report output files, format files, discrimination data files, and search criteria data files. Then click Accept.
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Piping Job Specification Tables
6.
Piping Job Specification Tables Nonphysical data such as branch calculations or gasket separation are stored in the Spec Table Library or hard-coded in the system. The Spec Tables for US practice are delivered in the following files: \win32app\ingr\rdusrdb\us_pjstb.l - object library \win32app\ingr\rdusrdb\us_pjstb.l.t - text library These libraries contain the Piping Job Specification tables and the other special tables which contain nonphysical data. The data in the Spec Table Library falls into two basic categories. Specification Tables - Referenced in the Piping Materials Class Specification Data of the Material Reference Database. See page 190. RDB Tables - Referenced in the Component Placement and Material TakeOff forms of the Project Data Manager. See page 215. You can use the Piping Job Specification Tables command to create a new Piping Job Specification Table library or to create, modify, or delete tables in an existing library. See page 239.
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6.1
PJS Tables and Functions The following special tables and functions are provided in the Spec Table Library. These table/equation names are defined in the Piping Materials Class Specification Table of the Specification Material Reference Database. Temperature and Pressure Service Limits table Nominal Piping Diameter table Thickness Data table Materials Data table Piping Wall Thickness equation Branch Reinforcement calculation Branch Insertion table Gasket Separation table Fluid Code table
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Temperature and Pressure Service Limits Table
6.1.1
Temperature and Pressure Service Limits Table The temperature and pressure service limits table includes the sets of temperatures and pressures that define the boundaries of acceptability for a piping materials class. These limits can be dictated by factors such as strength of components and materials used. You must insure that each of the components included in the piping materials class meet the indicated temperature and pressure limits. You can define both positive and negative values for temperature. However, you can only define positive values for pressure. The units of measure for the pressure and temperature values in the table are defined as a part of the table description. The system uses the information in this table to insure: The highest temperature from the TDB does not exceed the highest temperature value in the table The lowest temperature in the TDB is not less than the lowest value in the table For a given temperature, the pressure from the table is not less than any of the corresponding pressure(s) from the TDB. This table is limited to 100 temperature and pressure values.
Neutral File Format Table_Data_Definition ’LWWWW’ ! Description= ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ ! By=ZZZ Ckd By=ZZZ Rev=ZZ Date=ZZ-ZZZ-ZZZZ No_Inputs 1 No_Outputs 1 Input_Interpolation 1, Next_One Units= DF, PSIG ! Temperature Pressure WWWW ZZZZZZ WWWW ZZZZZZ WWWW ZZZZZZ WWWW ZZZZZZ WWWW ZZZZZZ WWWW ZZZZZZ WWWW ZZZZZZ WWWW ZZZZZZ WWWW ZZZZZZ END
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Example Table_Data_Definition ’L1001’ ! Description= B16.5 CL150-1.1, -20 to 800 ! By=DCG Ckd By=DG Rev=0 No_Inputs 1 No_Outputs 1 Input_Interpolation 1, Next_One Units= DF, PSIG ! Temperature Pressure -20 285 100 285 200 260 300 230 400 200 500 170 600 140 650 125 700 110 750 95 800 80 END
Date=13-Feb-1987
Parameters Table_Data_Definition (character-6) — This parameter specifies the name of the Temperature and Pressure Service Limits Table. These tables use the following naming conventions. — first character: L — second character: the pressure rating of the piping materials class as defined by the following code: 1= 2= 3= 4= 5= 6= 7=
CL150 CL300 CL400 CL600 CL900 CL1500 CL2500
8= GRAVHD 9= OTHER A= CL125 F= CL800 G= CL2000 H= CL3000 J= CL4500
K= CL5000 L= CL6000 M= CL9000 N= CL10000 R= CL15000 T= CL20000 V= CL30000
— third, fourth, and fifth characters: numbers from 001 through 999 used to make the table name unique. Input_Interpolation 1, Next_One — This statement tells the system to interpolate between known values for the temperature value. The statement must be included as shown in the table format for the desired interpolation to take place. Temperature (real) — This field identifies the maximum temperature value. You can use both positive (+) and negative (-) values. Values are assumed to be positive unless otherwise indicated.
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Pressure (real) — This field identifies the value for pressure corresponding to the previously defined temperature. Negative (-) values are not accepted in this field.
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6.1.2
Nominal Piping Diameters Table The NPD Tables consists of the diameters for piping and tubing which are valid within any piping materials class which references this table. The system verifies any NPD input in the Piping Design TDB.
Neutral File Format Table_Data_Definition ’DWWW’ ! Description= ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ ! By=ZZZ Ckd By=ZZZ Rev=ZZ Date=ZZ-ZZZ-ZZZZ No_Inputs 1 No_Outputs 0 Units= NPD_IN ! Diam WWWWW WWWWW WWWWW WWWWW WWWWW WWWWW WWWWW END
This table can also be used to define the equivalency for English and metric diameters. The output column defines the English equivalent for the matching metric size.
Neutral File Format - English/Metric Equivalency Table_Data_Definition ’DWWW’ ! Description= ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ ! By=ZZZ Ckd By=ZZZ Rev=ZZ Date=ZZ-ZZZ-ZZZZ No_Inputs 1 No_Outputs 1 Units= NPD_MM, NPD_IN ! Metric Diam WWWWW WWWWW WWWWW WWWWW WWWWW WWWWW WWWWW WWWWW WWWWW WWWWW END
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Examples Table_Data_Definition ’D036’ ! Description= From 0.5 to 36 ! By=NP Ckd By=DG Rev=0 No_Inputs 1 No_Outputs 0 Units= NPD_IN ! Diam 0.5 0.75 1 1.5 2 3 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 END
Date=22-Jan-1987
Table_Data_Definition ’DB001’ ! Description= From 6mm to 900mm (0.375 to 36) ! By=aw Ckd By= Rev=1 Date=17_jul 1989 No_Inputs 1 No_Outputs 1 Units= NPD_MM, NPD_IN ! metric diam, imperial diam 10 0.375 15 0.5 20 0.75 25 1 40 1.5 50 2 80 3 100 4 150 6 200 8 250 10 300 12 350 14 400 16 450 18 500 20 550 22 600 24 650 26 700 28 750 30 800 32 850 34 900 36 END
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Parameters Table_Data_Definition (character 6) — This field identifies the name of the NPD table. These tables use the following naming conventions: — first character: D — second, third, and fourth characters: numbers from 001 through 999 used to make the table name unique. Diam - Nominal Piping Diameter (integer) — This field identifies the value for nominal diameter. You can use the value ET_AL to indicate that any nominal diameter value from the TDB which is equal to or greater than the value in the preceding line is an acceptable nominal diameter for the PMC.
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6.1.3
Thickness Data Tables Thickness data is determined as a function of the table name and nominal piping diameter. These tables include the minimum, retirement, thread, and preferred thicknesses required in the calculation of piping wall thickness. The tables provide the actual thickness; not a schedule. Therefore, there must be an individual entry for each diameter. You cannot use an NPD range. PDS requires that the schedule/thickness values be in inches.
Neutral File Format Table_Data_Definition ’TWWWW’ ! Description= ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ ! By=ZZZ Ckd By=ZZZ Rev=ZZ Date=ZZ-ZZZ-ZZZZ No_Inputs 1 No_Outputs 8 Units= NPD_IN, IN, IN, IN, SC_TH_IN, SC_TH_IN, SC_TH_IN, SC_TH_IN, SC_TH_IN ! Diam Min Thick Ret Thick Thread Thick Preferred Schedules/Thicknesses WWWWW ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ WWWWW ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ WWWWW ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ WWWWW ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ WWWWW ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ WWWWW ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ WWWWW ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ WWWWW ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ WWWWW ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ ZZZZZ END
Example
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Table_Data_Definition ’TA501’ ! Description= A,0.063CA,0.0071D=26 ! By=DCG Ckd By=DG Rev=0 Date=31-Jan-1987 No_Inputs 1 No_Outputs 8 Units= NPD_IN, IN, IN, IN, SC_TH_IN, SC_TH_IN, SC_TH_IN, SC_TH_IN, SC_TH_IN ! Diam Min Thick Ret Thick Thread Thick Preferred Schedules/Thicknesses 0.5 .147 .06 S-160 0.75 .154 .06 S-XS 1 .179 .06 S-XS 1.5 .2 .06 S-XS 2 .154 .06 S-STD 3 .216 .06 S-STD 4 .237 .07 S-STD 6 .28 .1 S-STD 8 .250 .1 S-STD 10 .250 .1 S-STD 12 .250 .1 S-STD 14 .250 .12 S-STD 16 .250 .12 S-STD 18 .250 .12 S-STD 20 .250 .13 S-STD 22 .250 .15 S-STD 24 .250 .15 S-STD 26 .3125 .17 S-10 S-STD 28 .3125 .19 S-10 S-STD 30 .3125 .20 S-10 S-STD -
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32 34 36 END
.3125 .3125 .3125
.21 .23 .24
-
S-10 S-STD S-STD
S-STD S-XS
-
-
-
Parameters Table_Data_Definition - Thickness Data Table Name (character 6) — This field identifies the name of the table. These tables use the following naming conventions: — first character: T — second character: code which combines the criteria type with the maximum size for which threaded components are used in the piping materials class, as defined below. Criteria 1 applies to carbon steels and low-alloy steels; criteria 2 applies to aluminum alloys, stainless steels, and non-ferrous alloys. A= Criteria 1 with no threaded components B= Criteria 1 with threaded components up to 1 inch diameter C= Criteria 1 with threaded components up to 1.5 inch diameter D= Criteria 1 with threaded components up to 2 inch diameter F= Criteria 2 with no threaded components G= Criteria 2 with threaded components up to 1 inch diameter H= Criteria 2 with threaded components up to 1.5 inch diameter I= Criteria 2 with threaded components up to 2 inch diameter Z= Special criteria — third character: the corrosion allowance of the piping materials class for which the table is intended, per the following criteria: 1= None 2= 0.020" 3= 0.030" 4= 0.050" 5= 0.063" 6= 0.10" 7= 0.125" 8= 0.188" 9= 0.250" A= 405 clad B= 410S clad
C= 304 clad D= 304L clad E= 316 clad F= 316L clad G= 317 clad H= 317L clad J= 321 clad L= Cement lined M= Epoxy lined N= Glass lined O= Kynar lined
P= Polyester lined Q= Polypropylene lined R= PTFE lined S= Saran lined T= Teflon lined U= TK31 lined V= R11 lined W= R15 lined X= R18 lined Y= Other 1 Z= Other 2
— fourth and fifth characters: numbers from 01 through 99 used to make the table name unique. Diam - Nominal Piping Diameter (integer) — This parameter identifies the desired value for nominal diameter.
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Min Thick - Minimum Required Thickness (real) — This parameter represents the least thickness, inclusive of corrosion allowance and mill tolerance, which is acceptable for a given NPD. Either a positive number or a blank entry must be provided. This value is only used in piping wall thickness calculations. Ret Thick - Retirement Thickness (real) — This parameter represents the least thickness, exclusive of corrosion allowance, thread allowance, or mill tolerance, which is acceptable for a given NPD. Either a positive number or a blank entry must be provided. This value is only used in piping wall thickness calculations. Thread Thick - Thread Thickness (real) — This parameter represents the thickness for threaded pipe that must be added to the calculated wall thickness to account for the presence of threads. Either a positive number or a blank entry must be provided. It is only used in piping wall thickness calculations. Preferred Schedule/Thicknesses 1 through 6 (real) — These parameters represent the schedules and/or thicknesses you prefer be used as a result of a piping wall thickness calculation. Values in the table are arranged in ascending thickness sequence. The system rounds the calculated wall thickness to the next higher preferred thickness. You are restricted to a limit of six preferred thicknesses. PDS requires that these values be in inches.
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6.1.4
Materials Data Table The Materials Data Table consists of the materials data that is a function of the table name, material grade, wall thickness range, and temperature. These tables include the properties which are required for the calculation of piping wall thickness. You must insure that units of measure used in the Materials Table are consistent with those used in the corresponding Temperature-Pressure Table(s). Note that you can express the mill tolerance as either a thickness percentage or a tolerance value. Only one value can exist per table entry. If values exist for both, the system only uses the mill thickness percentage. The system uses the materials grade and temperature to access the information in the table and provide the values of thickness range, coefficient Y, allowable stress (S), and the applicable mill tolerance. Once the actual thickness is calculated for the component, the calculation software compares that value with the thickness range. If the thickness range is exceeded, the next entry in the materials table for the applicable materials grade and temperature is sought and the calculation process is repeated.
Neutral File Format Table_Data_Definition ’MWWW’ ! Description= ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ ! By=ZZZ Ckd By=ZZZ Rev=ZZ Date=ZZ-ZZZ-ZZZZ No_Inputs 2 No_Outputs 6 Input_Interpolation 2, Next_One Units= INT, DF, IN, IN, DEC, PSI, DEC, IN ! Mill Tol ! Mat Gr Temp Thick Range Y S % Value WWWW ZZZZ ZZZZZ ZZZZZ ZZZ ZZZZZZ ZZZZZ ZZZZZ WWWW ZZZZ ZZZZZ ZZZZZ ZZZ ZZZZZZ ZZZZZ ZZZZZ WWWW ZZZZ ZZZZZ ZZZZZ ZZZ ZZZZZZ ZZZZZ ZZZZZ WWWW ZZZZ ZZZZZ ZZZZZ ZZZ ZZZZZZ ZZZZZ ZZZZZ WWWW ZZZZ ZZZZZ ZZZZZ ZZZ ZZZZZZ ZZZZZ ZZZZZ WWWW ZZZZ ZZZZZ ZZZZZ ZZZ ZZZZZZ ZZZZZ ZZZZZ WWWW ZZZZ ZZZZZ ZZZZZ ZZZ ZZZZZZ ZZZZZ ZZZZZ WWWW ZZZZ ZZZZZ ZZZZZ ZZZ ZZZZZZ ZZZZZ ZZZZZ END
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Example Table_Data_Definition ’ML01’ ! Description= ASTM A53-B, A106, API 5L-B ! By=DCG Ckd By=DG Rev=0 Date=24-Feb-87 No_Inputs 2 No_Outputs 6 Input_Interpolation 2, Next_One Units= INT, DF, IN, IN, DEC, PSI, DEC, IN ! Mill Tolrnce ! Mat Gr Temp Thick Range Y S % Value 142 -20 .4 20000 12.5 142 100 .4 20000 12.5 142 200 .4 20000 12.5 142 300 .4 20000 12.5 142 400 .4 20000 12.5 142 500 .4 18900 12.5 142 600 .4 17300 12.5 142 650 .4 17000 12.5 142 700 .4 16500 12.5 142 750 .4 13000 12.5 142 800 .4 10800 12.5 162 -20 .4 20000 12.5 162 100 .4 20000 12.5 162 200 .4 20000 12.5 162 300 .4 20000 12.5 162 400 .4 20000 12.5 162 500 .4 18900 12.5 162 600 .4 17300 12.5 162 650 .4 17000 12.5 162 700 .4 16500 12.5 162 750 .4 13000 12.5 162 800 .4 10800 12.5 116 -20 .4 20000 12.5 116 100 .4 20000 12.5 116 200 .4 20000 12.5 116 300 .4 20000 12.5 116 400 .4 20000 12.5 116 500 .4 18900 12.5 116 600 .4 17300 12.5 116 650 .4 17000 12.5 116 700 .4 16500 12.5 116 750 .4 13000 12.5 116 800 .4 10800 12.5 END
Parameters Table_Data_Definition - Materials Data Table Name (character 6) — This field identifies the number of the table. These tables use the following naming conventions: — first character: M — second character: the applicable design code, per the following convention: A= ASME Section I [Power Boilers] B= ASME Section III [Nuclear] C= Do not use
D= ASME Section VIII-1 [Unfired Vessels]
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E= ASME Section VIII-2 [Unfired Vessels] J= ANSI-B31.1 [Power] K= ANSI-B31.2 [Fuel Gas] L= ANSI-B31.3 [Petroleum] M= ANSI-B31.4 [Oil Transport]
N= ANSI-B31.5 [Refrigeration] P= ANSI-B31.8 [Gas Transmission] Q= ANSI-B31.9 [Building Services] T= API V= AWWA
— third and fourth characters: numbers from 01 through 99 used to make the table name unique. Input_Interpolation 2, Next_One — This statement must be included as shown for interpolation to take place. Interpolation is used for all the output fields, if required. Mat Gr - Material Grade (integer - standard note 145) — This code-listed parameter identifies the materials grade. This compound attribute includes the code, specification, grade, temper, and joint efficiency to be used for the component. Temp - Temperature (real) — This field identifies the applicable temperature for a set of material properties. Thick - Wall Thickness Range - low (real) Range - Wall Thickness Range - high (real) — These fields identify the lower and upper wall thickness bounds for a set of material properties. You can enter positive numbers or blanks. A blank indicates that the properties apply regardless of the thickness of the component. You cannot define this range in terms of schedule. Y - Coefficient Y (real) — This parameter represents the coefficient Y corresponding to the previously defined parameters in the line. You can enter a positive number or a blank. S - Allowable Stress (real) — This parameter represents the allowable stress corresponding to the previously defined parameters in the line. You can enter a positive number or a blank. S is the basic allowable stress for the material excluding casting, joint or structural grade quality factor (E). Mill Tol % - Mill Thickness Percentage (real) — This parameter represents the per cent of the wall thickness that is to be considered as mill tolerance for pipe material. Enter the mill tolerance to be considered for the material as a percent of nominal thickness; such as 12.5%. Mill Tol Value - Mill Thickness Value (real) — This parameter represents the actual wall thickness that is to be considered as mill tolerance for plate material. Enter the value of mill tolerance to be considered for the material; such as 0.01 inch.
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6.1.5
Wall Thickness and Branch Reinforcement Equations These equations define formulas for the calculation of piping wall thickness and branch reinforcement to resist positive pressure. The actual equations and their logic are hardcoded in the software. PDS requires that the thickness value be defined in inches. Thickness equations have project unique names which must follow the following convention: first character: E second character: the applicable design code, per the following convention: A= ASME Section I B= ASME Section III C= Do not use D= ASME Section VIII-1 E= ASME Section VIII-2 J= ANSI-B31.1 K= ANSI-B31.2 L= ANSI-B31.3 M= ANSI-B31.4 N= ANSI-B31.5 P= ANSI-B31.8 Q= ANSI-B31.9 T= API V= AWWA
[Power Boilers] [Nuclear] [Unfired Vessels] [Unfired Vessels] [Power] [Fuel Gas] [Petroleum] [Oil Transport] [Refrigeration] [Gas Transmission] [Building Services]
third and fourth characters: numbers from 01 through 99 used to make the equation name unique. If the equation name is provided as part of the definition *Cyyy in the Schedule/Thickness attribute of the Piping Commodity Specification Data table, the equation name must be limited to the format Ex; no third or fourth character can be defined.
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Delivered Equations The thickness and branch reinforcement logic for the following equations are hardcoded in the software. EJ01 Source - ANSI-B31.1.1986 [Power Piping] Thickness logic from paragraph 104.1, equation 3 Reinforcement logic from paragraph 104.3.1(D)
PD tm = _________ + A 2(SE+Py) EL01 Source - ANSI-B31.3c.1986 [Chemical Plant and Petroleum Refinery Piping] Thickness logic from paragraph 304.1, equation 3a Reinforcement logic from paragraph 304.3.3 & Code - Appendix H PD t = _________ 2(SE+PY) where P D S E Y A
Design pressure Pipe outside diameter Allowable stress read from the Materials table Joint quality factor determined from the wall thickness attribute Cxxx where xxx is 100 times E Coefficient Y read from the Materials table Additional Thickness (in inches)
Refer to the spec access example below for more information on how the wall thickness equation is used to determine the actual wall thickness value.
General Considerations The following considerations apply to both thickness equations and branch reinforcement calculations. Pressures and temperatures used in thickness/branch reinforcement calculations are derived from data in the Piping Design TDB. Both normal and alternate pressure and temperature conditions are considered. If actual values exist for the normal design or the alternate design pressure/temperatures, the corresponding operating conditions are ignored. If default values exist for BOTH sets of design conditions, both normal and alternate operating conditions are used. At least one complete set of conditions must be defined.
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Once the proper pressure and temperature sets are determined, their units of measure are converted to those used in the Temperature-Pressure Table associated with the Piping Materials Class to which the component belongs. Refer to the descriptions of the Temperature-Pressure Table and Materials Table to insure consistency between units of measure. Conversions are performed using the procedures and conversion factors defined for the Units of Measure in the PDS Piping Component Data Reference Guide. Only positive pressure is considered. The system reports an error if you request a thickness calculation involving a vacuum condition (negative pressure). Independent sets of thickness/reinforcement calculations are carried out for each applicable pressure/temperature set. In each calculation set, table values that are temperature dependent are determined on the basis of the temperature applicable to the calculation set being considered. The thicker calculated thickness is used.
Thickness Equations The following considerations apply to thickness equations. Thickness calculations are triggered by specifying an equation name in the Schedule/Thickness attribute of the Piping Commodity Specification Data table. An asterisk (*) followed by a name (of the form Cyyy) defines the specific calculation or table lookup to be used for wall thickness. The letters that form this code have the following meaning: — C is the schedule/thickness for the applicable end of the component is determined by calculations using the thickness equation defined in the thickness_equation attribute of the Piping Materials Class Data table. — yyy is the casting, joint or structural grade quality factor (E) times 100. This factor is one of the parameters used in the thickness calculation. If you are defining a calculation to be performed on a seamless fitting (E=1) but want to match the thickness for the mating welded pipe (E=0.85), the quality factor for the pipe should be entered here. For components with ends having different nominal diameters, independent sets of thickness determinations are performed for each NPD. One or more ends may need to be calculated, as determined by specific *Cyyy entries in the Piping Commodity Specification Data table. The larger thickness (calculated or predefined) is used. For example: — A 20" x 10" reducer is defined in the Piping Commodity Table to have a *Cyyy, 20" end and a 0.55" thick, 10" end. The calculation of the 20" end results in a 0.5" thickness. A 0.55" thick reducer is used. — A 24" x 20" reducer is defined in the Piping Commodity Table to have a *Cyyy, 24" end and a *Cyyy, 20" end. The calculation of the 24" end results in a 0.6" thickness. The calculation of the 20" end results in a 0.5" thickness. A 0.6" thick reducer is used.
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All thickness calculations involve a casting, joint, or structural grade quality factor (E). The value for this factor is yyy/100, where yyy is defined in the entry *Cyyy made under the Schedule Thickness attribute for the Commodity Item under consideration.
Branch Reinforcement The following considerations apply to branch reinforcement calculations. The need to perform a branch reinforcement calculation is triggered by — the placement of a generic branch component with the actual item name determined from a branch table. (See Branch Insertion Tables.) — the presence of more than one item name in the Preferred Branch AABBCC Codes fields of the applicable branch table. — the applicable branch reinforcement being either a reinforcing weld or a reinforcing pad. All calculations involve a casting, joint, or structural grade quality factor (E). The value for this factor is yyy/100, where yyy is defined in the Modifier attribute for entries with an item name of PIPING. The fillet welds joining reinforcing pads to the header and to the branch are considered in determining the available reinforcement area.
Spec Access The execution of a pipe wall thickness calculation is performed when the variable PIPE_OD_n is encountered in the physical data definition of a pipe or component. Therefore, pipe outside diameter must be calculated or retrieved from a table before the wall thickness can be used as part of a table name. Once the actual thickness is calculated, it is compared against the thickness range in the Materials table and the retirement thickness in the Thickness Data table. The system uses the greater of these values as the uncorroded wall thickness. Then the system adds the corrosion allowance from the PMC, the thread thickness from the wall thickness table, and the mill tolerance from the Materials table. This revised thickness is compared against the minimum thickness value in the Thickness Data table. The larger of these two values is compared against the preferred thickness value in the Thickness Data table, and the next largest preferred value is used for table look-ups and is stored in the design database. If the Thickness Data table uses schedules as preferred thickness, the schedules are translated to an actual thickness by a table look-up from a table of the form MALWT//Term_type//shc_thick//generic_flag//weight_code
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and output 2 gives the actual wall thickness.
Verification of Schedule Thickness You can set an option in the RDB to determine how the piping segment override schedule/thickness value will be handled during wall thickness calculations. By default, the piping segment schedule/thickness override is used in place of the value determined from the Piping Job Specification.
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6.1.6
Branch Insertion Tables A branch insertion table defines the selection criteria for tee and lateral branches. You must specify the type of wye or cross to be placed in the model and specify the reinforcement data. Branch tables define the reinforcement to be used at tee and lateral branches in the piping system as a function of the acute angle of intersection and the nominal diameters for the intersecting lines. These tables do not include the reinforcement required at Y’s and crosses. For them, the required reinforcement must be specified in Piping Design. The types of tee branch connections include branch weld, coupling, threadolet, reducing tee, tee with reducing insert, nipolet, branch weld with reinforcing pad, sockolet, tee, weldolet, tee with reducing bushing, and reducing tee with reducer(s). The system accesses the branch table when placing a component at an intersection when no reinforcement component has been specifically defined. The system uses the information in this table and the header nominal diameter (first size) and branch nominal diameter (second size) to provide the item name of the component to be used at the intersection. Neither interpolation nor extrapolation is allowed.
Neutral File Format Table_Data_Definition ’BWWWW_WW’ ! Description= ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ ! By=ZZZ Ckd By=ZZZ Rev=ZZ Date=ZZ-ZZZ-ZZZZ No_Inputs 2 No_Outputs 3 Units= NPD_IN, NPD_IN, AN*6, AN*6, AN*6 ! Nom Diam Preferred Branch ! Header Branch AABBCC Codes WWWWW WWWWW ’ZZZZZZ’ ’ZZZZZZ’ ’ZZZZZZZ’ WWWWW WWWWW ’ZZZZZZ’ ’ZZZZZZ’ ’ZZZZZZZ’ WWWWW WWWWW ’ZZZZZZ’ ’ZZZZZZ’ ’ZZZZZZZ’ WWWWW WWWWW ’ZZZZZZ’ ’ZZZZZZ’ ’ZZZZZZZ’ WWWWW WWWWW ’ZZZZZZ’ ’ZZZZZZ’ ’ZZZZZZZ’ WWWWW WWWWW ’ZZZZZZ’ ’ZZZZZZ’ ’ZZZZZZZ’ WWWWW WWWWW ’ZZZZZZ’ ’ZZZZZZ’ ’ZZZZZZZ’ WWWWW WWWWW ’ZZZZZZ’ ’ZZZZZZ’ ’ZZZZZZZ’ END
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Example Table_Data_Definition ’BA501_90’ ! Description= A,0.063CA, Use with TA501 ! By=DCG Ckd By=DCG Rev=3 No_Inputs 2 No_Outputs 3 Units= NPD_IN, NPD_IN, AN*6, AN*6, AN*6 ! Nom Diam Preferred Branch ! Header Branch AABBCC Codes 0.75 0.75 ’6Q3C22’ 1 0.75 ’6Q3C24’ 1 1 ’6Q3C22’ 1.5 0.75 ’6Q3C24’ 1.5 1 ’6Q3C24’ 1.5 1.5 ’6Q3C22’ 2 0.75 ’6Q3C74’ 2 1 ’6Q3C74’ 2 1.5 ’6Q3C74’ 2 2 ’6Q3C22’ 3 0.75 ’6Q3C74’ 3 1 ’6Q3C74’ 3 1.5 ’6Q3C74’ > 3 2 ’6Q3C73’ 3 3 ’6Q3C22’ 4 0.75 ’6Q3C74’ 4 1 ’6Q3C74’ 4 1.5 ’6Q3C74’ > 4 2 ’6Q3C73’ > 4 3 ’6Q3C73’ 4 4 ’6Q3C22’ 6 0.75 ’6Q3C74’ 6 1 ’6Q3C74’ 6 1.5 ’6Q3C74’ > 6 2 ’6Q3C73’ > 6 3 ’6Q3C73’ > 6 4 ’6Q3C73’ 6 6 ’6Q3C22’ 8 0.75 ’6Q3C74’ 8 1 ’6Q3C74’ 8 1.5 ’6Q3C74’ > 8 2 ’6Q3C73’ > 8 3 ’6Q3C73’ > 8 4 ’6Q3C73’ > 8 6 ’6Q3C73’ 8 8 ’6Q3C22’ 10 0.75 ’6Q3C74’ 10 1 ’6Q3C74’ 10 1.5 ’6Q3C74’ > 10 2 ’6Q3C73’ > 10 3 ’6Q3C73’ > 10 4 ’6Q3C73’ 10 6 ’6Q3C82’ 10 8 ’6Q3C82’ 10 10 ’6Q3C22’ 12 0.75 ’6Q3C74’ 12 1 ’6Q3C74’ 12 1.5 ’6Q3C74’ > 12 2 ’6Q3C73’ > 12 3 ’6Q3C73’ > 12 4 ’6Q3C73’ 12 6 ’6Q3C82’ 12 8 ’6Q3C82’ 12 10 ’6Q3C82’ 12 12 ’6Q3C22’ END
Date=17-Aug-1988
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Parameters Table_Data_Definition - Branch Insertion Table Name (character 6) — This field identifies the name of the table. This name results from the compounding of the Branch Table entry defined in the Piping Materials Class with the acute angle of intersection between the header and the branch. These tables use the following naming conventions: — first character: B — second character: a code which combines the criteria type with the maximum size for which threaded components are used in the PMC, as defined below. Criteria 1 applies to carbon steels and low-alloy steels; criteria 2 applies to aluminum alloys, stainless steels and non-ferrous alloys. A= Criteria 1 with no threaded components B= Criteria 1 with threaded components up to 1 inch diameter C= Criteria 1 with threaded components up to 1.5 inch diameter D= Criteria 1 with threaded components up to 2 inch diameter F= Criteria 2 with no threaded components G= Criteria 2 with threaded components up to 1 inch diameter H= Criteria 2 with threaded components up to 1.5 inch diameter I= Criteria 2 with threaded components up to 2 inch diameter Z= Special criteria — third character: the corrosion allowance of the piping materials class for which the table is intended, per the following criteria: 1= None 2= 0.020" 3= 0.030" 4= 0.050" 5= 0.063" 6= 0.10" 7= 0.125" 8= 0.188" 9= 0.250" A= 405 clad B= 410S clad
C= 304 clad D= 304L clad E= 316 clad F= 316L clad G= 317 clad H= 317L clad J= 321 clad L= Cement lined M= Epoxy lined N= Glass lined O= Kynar lined
P= Polyester lined Q= Polypropylene lined R= PTFE lined S= Saran lined T= Teflon lined U= TK31 lined V= R11 lined W= R15 lined X= R18 lined Y= Other 1 Z= Other 2
— fourth and fifth characters: numbers from 01 through 99 used to make the table name unique. The second part of the table name defines the acute angle of intersection. Negative values and values less than 45 degrees or greater than 90 degrees are not valid. However, when dealing with branch reinforcements, negative values and values less than 20 degrees or greater than 90 degrees are not valid (per ANSI B31.1 and ANSI B31.3).
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The data fields are sorted by header NPD and then by branch NPD. Nom Diam Header - NPD for Run (integer) — This field identifies the nominal diameter of the header at the intersection. This is the member with the largest nominal diameter. Nom Diam Branch - NPD for Branch (integer) — This field identifies the nominal diameter of the branch member at the intersection. This is the member with the smallest nominal diameter. Preferred Branch AABBCC Codes (character 6) — These field identify the commodity item name of the component used to reinforce the intersection. — If only one item name is listed, no branch reinforcement calculation is performed. The specified item is placed at the intersection. — If two or more item names apply in one line, the system calculates the branch reinforcement thickness. The system tests the listed item names sequentially (from left to right) until the applicable strength criteria are satisfied. Therefore, these codes should be arranged in ascending strength sequence (for example, reinforcing welds, followed by reinforcing pads, followed by weldolets.) Typically, the codes are from one of the following types: — Reinforcing elements, such as reinforcing welds and pads. — Weld-on components reinforcing the intersection such as saddles and weldolets. — Weld-in components actually making the intersection such as laterals and tees.
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6.1.7
Gasket Separation Table These tables define the gasket gap to be used for a given nominal diameter and maximum temperature. For each bolted end, the system uses the applicable table, the NPD of the end, and the maximum temperature for the gasket to be used at the end, to determine the gap thickness to be used at the end. Lines in this table are sorted by NPD first and maximum temperature second.
Neutral File Format Table_Data_Definition ’GWWW_WWWWWW’ ! Description= ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ ! By=ZZZ Ckd By=ZZZ Rev=ZZ Date=ZZ-ZZZ-ZZZZ No_Inputs 2 No_Outputs 1 Units= NPD_IN, DF, IN ! Diam TMx Gaskt Gap WWWWW ZZZ ZZZZZ WWWWW ZZZ ZZZZZ WWWWW ZZZ ZZZZZ WWWWW ZZZ ZZZZZ WWWWW ZZZ ZZZZZ WWWWW ZZZ ZZZZZ WWWWW ZZZ ZZZZZ WWWWW ZZZ ZZZZZ WWWWW ZZZ ZZZZZ END
Example Table_Data_Definition ’G001_1500’ ! Description= SP-1000 deg F , RJ-1001 deg F ! By=DCG Ckd By=DCG Rev=0 Date=24-Jun-1987 No_Inputs 2 No_Outputs 1 Units= NPD_IN, DF, IN ! Diam TMx Gaskt Gap 0.5 1000 .125 0.75 1000 .125 1 1000 .125 1.5 1000 .125 2 1000 .125 3 1000 .125 4 1000 .125 6 1000 .125 8 1000 .125 10 1000 .125 12 1000 .125 14 1000 .125 16 1000 .125 18 1000 .125 20 1000 .125 24 1000 .125 0.5 1001 .16 0.75 1001 .16 1 1001 .16 1.5 1001 .16 2 1001 .12 3 1001 .12
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Gasket Separation Table
4 6 8 10 12 14 16 18 20 24 END
1001 1001 1001 1001 1001 1001 1001 1001 1001 1001
.12 .12 .16 .16 .19 .22 .31 .31 .38 .44
Parameters Table_Data_Definition - Gasket Gap Table Name (character 6) — This field identifies the name of the table. This name results from the compounding of the entry defined in the Piping Materials Class with the rating of the bolted end to which the gasket gap applies. These tables use the following naming conventions: — first character: G — next three characters: numbers from 001 through 999 used to make the table name unique. — The second part of the table name is the rating of the components to which it applies. The characters CL and # are not included in the rating designation. Diam - Nominal Piping Diameter — This field identifies the applicable NPD value. The units of measure used to define the NPD must match the NPD units to be used in the Piping model. TMx - Maximum Temperature — This field identifies the maximum temperature for the gasket as defined in the Piping Commodity Specification Data (Table 202 attribute 5). (The system must find a match of the commodity item temperature and the value in this column for successful retrieval of data.) The units of measure used to define the temperature must be the same as the units used in the Temperature Pressure Service Limits table. Gasket Gap — This field identifies the full gasket gap to be used.
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6.1.8
Fluid Code Table Fluid Code tables can be used to limit the number of fluid codes which are valid for a particular Piping Material Class. A Fluid Code table works much like the Diameters table. Where the Diameters Table contains a valid set of diameters for a PMC, the Fluid Code table contains a set of valid Fluid Codes for a PMC. To use a Fluid Code table, Specify the name of the Fluid Code Table in the fluid_code attribute of the Piping Materials Class definition. Set the Fluid Code Control toggle to Yes on the Piping Data Control form of the Project Data Manager. Refer to the Project Administrator (PD_Project) Reference Guide for more information on this form.
Neutral File Format Table_Data_Definition ’FC001’ ! Description= By Process Vendor ! By=SCC Ckd By=SCC Rev=1 No_Inputs 1 No_Outputs 0 Units= INT
Date=12-OCT-90
521 522 524 527 530 533 536 539 542 545 550 END
Parameters Table_Data_Definition (character 6) — This field identifies the name of the Fluid Code table. These tables use the following naming conventions: — first and second character: FC — third, forth, and fifth characters: numbers from 001 to 999 used to make the table name unique. Fld Cd (integer) — This field list the code list numbers for the valid fluid codes from code list set 125.
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RDB Tables
6.2
RDB Tables The following reference data tables are defined in the Spec Table Library. These tables required to provide basic data for the performance of the software. TNF
Table Name
G02
COMMODITY_ITEM_NAME
G04
BEND_DEFLECTION
G06
PIPE_RUN_LENGTH
G07
PIPE_LENGTH
G11
BOLT_LENGTH WELD_TYPE_TABLE WELD_C10031 DRV_WELD_DEF CommodityCode_BLT (Bolt Commodity Code Table) CommodityCode_GKT (Gasket Diameter Table) FIELD_FIT_LENGTH Component_Mirror_Table Operator_Mirror_Table Default_End_Prep MTO Tables and Functions
The system uses the settings in the Component Placement and Material TakeOff forms of the Project Data Manager to determine the applicable names for these basic tables. Refer to Table Formats and Naming Conventions, page 303, for information on the basic conventions used for PDS tables.
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6.2.1
Commodity Item Name Table (G02) The commodity item name table is used when placing a component at the vertex of an existing piping segment (in either automatic or manual component placement). It enables you to relate the component types (1 to 70) hard-coded in the software with the applicable Item Names. As the system processes the segment for component placement, it uses the derived Item Name from this table to reference the Piping Commodity Specification data in the Specification Material Reference Database. When placing change of direction components, this table is used in conjunction with the Bend Deflection Table. The table name format that applies to this table is: TNF=G02 COMMODITY_ITEM_NAME
Example Table_Data_Definition ’COMMODITY_ITEM_NAME’ ! Description= Correlation of hardcoded component types and AABBCC codes ! By=GJH Ckd By=DCG Rev=2 Date=16-May-1989 No_Inputs 1 No_Outputs 1 Units= INT, AN*6 ! Comp ! Type 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 > 23 > 24 25 26 27 28 29 30 31 32 33 34
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AABBCC Code ’PIPING’ ’TUBING’ ’HOSE’ ’6Q2C23’ ’6Q2C01’ ’6Q2C01’ ’6Q2C76’ ’6Q2C75’ ’6Q2C56’ ’6Q2C55’ ’6Q3C45’ ’6Q3C60’ ’6Q2C47’ ’6Q2C84’ ’6Q3C47’ ’6Q3C49’ ’6Q3C50’ ’6Q3C25’ ’6Q3C47’ ’6Q3C77’ ’6Q3C82’ ’6Q3C80’ ’6Q3C88’ ’6Q2C24’ ’6Q1C76’ ’6Q2C16’ ’6Q2C19’ ’6Q2C21’ ’6Q2C08’ -
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Commodity Item Name Table (G02)
35 36 37 38 39 40 41 42 43 44 45 END
’IND’ ’6Q2C49’ ’6Q2C51’ ’6Q2C53’ ’6Q2C06’ ’6Q3C89’
The meaning of the various component types is outlined below: Comp Type 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 25-27 28 29 30 31 32-37 38-40 41 42 43 44 45 51-60 61-70
Definition Piping (not used by the software) Tubing (not used by the software) Hose (not used by the software) Concentric diameter change Flange in bends Flange in other components 90 degree directional change 45-90 degree directional change 45 degree directional change < 45 degree directional change True Y Equal size cross (if not equal size, software will handle as a branch) > 90 pipe bend 90 degree reducing elbow Lateral (not used by the software) Reducing lateral Reducing run and branch lateral Reducing run and branch tee Lateral (not used by the software) Elbolet (used by Compute for Elbolet under the Tap command) Reinforcing weld Reinforcing pad Branch nipple vent/drain valve A - C end plug cap blind flange Closing component A - F Instrument indicator A - C 5.625 degree bend 11.25 degree bend 22.5 degree bend Orifice flange In-line nipple Pipe-like commodity item 1 - 10 Pipe-like model code 1 - 10
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If you do not want to place one of the above component types as part of automatic component placement, place a hyphen (-) for the Item Name.
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Bend Deflection Table (G04)
6.2.2
Bend Deflection Table (G04) The bend deflection table is used when placing a component at the vertex of an existing piping segment (in either automatic or manual component placement). The system uses the bend angle at the segment vertex to determine the type of component to be placed. This table contains the following data bend angle - low bend angle - high index into the Commodity Item Name table for a full size bend index into the Commodity Item Name table for a reducing bend This table defines which full size and reducing size component types will be placed for a specified angle range. The angle is defined as the smallest angle that the continuation of one pipe run makes with the other run. The component types are defined in the commodity item name table. (See Commodity Item Name Table (G02), page 216.) A value of 0 for the type indicates that no reducing component should be placed for an angle range. The system uses the bend angle to search this table for the matching range of bend angles. The system uses the index into the Commodity Item Name table for either a full size bend or a reducing bend depending upon the nominal piping diameters of the line route segments that form the bend. The system searches for an entry in the table where the angle is greater than or equal to the low bend angle and less than the high bend angle. You can define more than one bend deflection table for a project provided they are given different names. For example, one table can apply to underground piping and the other to aboveground piping. Refer to the Component Placement form in the Project Data Manager for information on defining the bend deflection table for a project or model. The table name format that applies to this table is: TNF=G04 BEND_DEFLECTION
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Example Table_Data_Definition ’BEND_DEFLECTION’ ! Description= Component type to use as function of angle between runs ! By=EPZ Ckd By=DCG Rev=2 Date=09-Nov-1987 No_Inputs 2 No_Outputs 2 Units= DEC, DEC, INT, INT ! Angle Comp Type To Use ! Low High Full Red 0.1 44.9 10 0 44.9 45.1 9 0 45.1 89.9 8 0 89.9 90.1 7 14 90.1 179.9 13 0 END
The following listing shows the component types used in this example. bend angle low high 0.1 44.9 44.9 45.1 45.1 89.9 89.9 90.1 90.1 179.9
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index full size 10 ( < 45 trimmed bend) 9 (45 bend) 8 (45-90 trimmed bend) 7 (90 bend) 13 ( > 90 trimmed bend)
reducing size N/A N/A N/A 14 (reducing 90 bend) N/A
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Segment Pipe Run Length Threshold Table (G06)
6.2.3
Segment Pipe Run Length Threshold Table (G06) This table enables you to define the minimum allowable segment run length which can be placed in the model during centerline routing. The values defined in this table do not apply to the segment run automatically created by the software when placing components end to end. The Piping Designer insures that the length of any pipe run of a piping segment exceeds the active segment run length threshold. The threshold is determined from this table as a function of nominal piping diameter. The only exception to this is for the small pipe run required for the offset of an eccentric reducer. This threshold is used to insure that the pipe run between two connected bends exceeds the fabrication length of the two bends. The value for nominal diameter is interpreted as follows: Diam Entry n1 n2 n3 .... n8 n9
Range of Diameters Covered nominal diameter < n1 n1 Approved This option copies the unapproved Physical Dimension library to the approved library. Accept to Copy or Exit to Avoid Copying Select Accept to copy the unapproved library file to the approved library.
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Create/Interactive Physical Commodity Data
7.5.4
Create/Interactive Physical Commodity Data
Before using this command Set the default table path and node in the Default Project Control Data. To add more than one table file to the library, create a list file which identifies the names of the table source files to be added. The list file should contain one entry (source file name) per line. The list file and all the source files should reside in the defined default table directory.
Operating Sequence 1.
Select the Create option.
2.
Set the toggle to Single to process a single source file or to List to process a list file.
3.
Specify Filename for processing Key in the name of the table file or list file to be processed and added to the active library.
4.
The system displays the default node name and path for the table files, as specified in the Default Project Control Data, at the bottom of the form. You can use the default setting or modify these fields to override the default location for this operation.
5.
Accept or Select Other Option Accept the file and begin processing. The system processes the source file and, if successful, it stores the resulting object file in the active library and stores the source file in the associated text library.
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7. Graphic Commodity Data
This option enables you to process physical dimension table source files and insert the specified files into the active library. You can process a single table file or specify a list of files to be created. Refer to the description of the applicable table file for information on naming conventions and file formats.
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7.5.5
Create/Batch Physical Commodity Data This option enables you to process physical dimension table source files and insert the specified files into the active library via batch processing. You can process a single table file or specify a list of files to be created. Refer to the description of the applicable table file for information on naming conventions and file formats.
Before using this command Set the default table path and node in the Default Project Control Data. To add more than one table file to the library, create a list file which identifies the names of the table source files to be added. The list file should contain one entry (source file name) per line. The list file and all the source files should reside in the define default table directory.
Operating Sequence 1.
Select the Create option.
2.
Set the toggle to Single to process a single source file or to List to process a list file.
3.
Specify Filename for processing Key in the name of the table file or list file to be processed and added to the active library.
4.
The system displays the default node name and path for the table files, as specified in the Default Project Control Data, at the bottom of the form. You can use the default setting or modify these fields to override the default location for this operation.
5.
Accept or Select Other Option Set the toggle to Submit Immediately or Delayed Submit. For Delayed Submit, set the time to process the source files.
6.
Accept the file and begin processing. The system submits the request to the batch queue PDreference.
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Create/Batch Physical Commodity Data
The system processes the source file and, if successful, it stores the resulting object file in the active library and stores the source file in the associated text library.
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7.5.6
Revise Physical Commodity Data This option enables you to select a table file from the library, edit the file, and then put it back in the library.
Before using this command Set the toggle to Full List or Sub-string to determine the tables to be listed.
Operating Sequence 1.
Select the Revise option. The system displays the table files in the active library.
2.
Select Table for Revision Select the table files to be revised and select Accept.
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Revise Physical Commodity Data
3.
The system extracts the specified file from the library and activates the text editor (specified for PD_EDITOR in the control.sh file) to enable you to modify the file.
7. Graphic Commodity Data
Make any changes to the displayed file. When you exit the text editor, the system compiles the revised file and inserts it back into the library. (If you quit the editor, the table is not recompiled.) The system returns to Step 2. You can select another table to be revised or select Exit.
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7.5.7
Delete Physical Commodity Data This option enables you to delete a table file or set of table files from the active library. It also deletes the revision dates from the corresponding Table Revision Management Library.
Before using this command Set the toggle to Full List or Sub-string to determine the tables to be listed.
Operating Sequence 1.
Select the Delete option. The system displays the table files in the active library.
2.
Select Table for Deletion Select the tables to be deleted from the list of tables. You can use the scroll bar to scroll through the available files.
3.
Accept or Select Other Option Accept the files and begin processing. The system deletes the table files from the active library.
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Report Physical Commodity Data
7.5.8
Report Physical Commodity Data
Operating Sequence 1.
Select the Report option from the Data Management form. The system displays the reporting options on the form.
2.
Revise Report Parameters Set the toggle to Default Report to create a report that list the tables in the physical data library. — OR — Set the toggle to Revision Dates Report and key in a date in the Revision Date field to process all tables modified since the specified revision date. The report lists the full contents of the modified tables with individual revision dates per line.
3.
Set the toggle to Report on Unapproved or Report on Approved to define the source of information to be reported. This toggle is only displayed when both the approved and the unapproved library are being used.
4.
Key in the file information for the location of the report file to be created.
5.
Select Save, Print or Print/Save.
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7. Graphic Commodity Data
This option enables you to create a report file of all the table files in the active library or those defined by the substring search criteria.
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Then select the print queue from the list of displayed queues. Refer to the section on Plot and Print Queues in the Project Administrator Reference Guide for information on setting up multiple print queues. If you select the Save or Print/Save option, the system will create a file named _tables in the default source file location (where is a prefix depending on the active practice). U.S. Practice European - DIN European - British Standard European - Practice A European - Practice B
us din bs eua eub
International - JIS International - Australian International - Practice A International - Practice B Company Practice
6.
Set the toggle to Submit Immediately or Delayed Submit. For Delayed Submit, set the time to process the request.
7.
Accept to Form Report or Revise Report Parameters Select Accept to create the specified report file.
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jis aus ina inb cmp
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List Physical Commodity Data
7.5.9
List Physical Commodity Data
Before using this command Set the toggle to Full List or Sub-string to determine the tables to be listed.
Operating Sequence 1.
Select the List option. The system displays the table files in the active library.
2.
You can use the scroll bar to scroll through the available files.
3.
Select Cancel to exit the form.
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7. Graphic Commodity Data
This option displays all the table files for the active library with the revision date of each table.
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7.5.10
Extract Physical Commodity Data This option enables you to extract a table file out of the active library for editing or printing.
Before using this command Set the default table path and node in the Default Project Control Data. Set the toggle to Full List or Sub-string to determine the tables to be listed.
Operating Sequence 1.
Select Extract from the Data Management form.
2.
Select Table for Extraction Select the tables from the list of files and select Accept. You can use the scroll bar to scroll through the available files. The system pulls the files out of the library and places them in the default table directory. The system also writes the names of the extracted files to a file named PD_tbl_list. For example, The current date and time is: Wed Apr 29 15:59:41 1992 File: File: File: File: File: File:
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PD_tbl2 PD_tbl3 PD_tbl4 PD_tbl5 PD_tbl6 PD_tbl7
is is is is is is
TDINBODY_SPECIFIC_7P1E01_I15AS_A TDINBODY_SPECIFIC_7P1E01_I15AS_B TDINBODY_SPECIFIC_7P1E01_I15AS_C TDINOPER_SPECIFIC_7P1E01_I15AS_A TDINOPER_SPECIFIC_7P1E01_I15AS_B TDINOPER_SPECIFIC_7P1E01_I15AS_C
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Extract Physical Commodity Data
If the list file is less than 24 hours old, the system appends the entries to the file, otherwise it overwrites the file.
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Table Formats and Naming Conventions
8.
Table Formats and Naming Conventions Tables are used to store data required for interactive processing of piping and instrument components. This section describes the tables which are included in the physical data libraries. Refer to Physical Data Tables, page 266 for more information on these libraries. Also refer to Piping Job Specification Tables, page 189 for more information on tables.
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8.1 8.1.1
Table Conventions Table Names Unless otherwise indicated, values for specific and generic parameters are stored in tables whose names are derived from parameters in the PJS. When naming ASCII files in the text libraries, if a dot (.) or a hyphen (-) is included in the Sc/Th column of the piping job specification, the dot or hyphen will be converted to a dollar sign ($) when the table name or ASCII file name is created. The actual character, and not the $, is displayed in all fields representing the actual attribute involved. The following examples illustrate how thicknesses are represented on the basis of the above rule: Actual Characters .25 1 1.375
ASCII equivalent $25 1 1$375
With version 5.0, the Physical Data Library Manager will respect the use of a dash (-) in a table name. This allows you to include a dash in the commodity code for a piping commodity valve, where the commodity code is used to form the name of the dimension table. Commodity codes are read verbatim when they are used to create table names. No conversion of dots (.) or hyphens (-), as described above, takes place. Also note that a dot (.) is not a valid character to include in a table name. For this reason, they should not be included as part of commodity codes for valves.
8.1.2
Comments You can include any number of comments in a table, using the conventions described below: For single-line comments: ! XXXXXXXXXXXXXXXXXXXXXXXXXX , or < XXXXXXXXXXXXXXXXXXXXXXXXXX >
For multi-line comments: < XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX >
where XXXX... represents the comment text.
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Table Conventions
8.1.3
Revision Markers Table entries preceded by a karat (>) have been revised since their original release. For example, the section of the table shown below has been revised three times since it was first delivered.
8. Table Formats
8.1.4
Component Tables The following conventions apply to the definition of columns in all the tables except tables for specialty items. The following line is required to define the number of input and output columns: No_Inputs x
No_Outputs x
The number of input columns must not exceed 2. The number of output columns must not exceed 9; it can be 0. The following statements are used in some tables to indicate that values will be interpolated. Input_Interpolation 1, Next_One Input_Interpolation 2, Next_One
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A definition must be made using the following format regarding the units of measure used in each column of a table: Units= NPD_IN, SF, LB, INT, DEC, IN, RAT, IN, IN, IN
8.1.5
Units Units are defined for each column of a table as follows:
306
Angle, degrees Angle between runs, degrees
DEG DEC
Area,
FT2 IN2 YD2 MI2 SCM SKM
Code-listed attributes
INT
Density,
LBF3 LB_UKGAL LB_USGAL KIPFT3 USTONFT3 KG_L KG_DM3 KGM3
Length, inches Length, millimeter Length, inches decimal Length, mm decimal
IN MM IN_DEC MM_DEC
Mass,
GRAIN USTON UKTON MG G
Nominal diameter, inches Nominal diameter, mm
NPD_IN NPD_MM
Pressure, psig Pressure, pascal gage Pressure, bar Pressure, bar (gage) Pressure, atmospheres Pressure, inches water absolute
PSIG PAG BAR BAR_G ATM INH20
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Table Conventions
INH20_32F INHG INHG_32F KG_CM2 KG_CM2_A MMH20 MMHG MPa_g
Rating
RAT CLxxx and xxx# are expressed as xxx
Schedule/thickness, inches Schedule/thickness, millimeters
SC_TH_IN SC_TH_MM
Stress, psi Stress, pascal Stress, kpa Stress, mpa
PSI PA KPA MPA
Surface area, square feet Surface area, square meter Surface area, square millimeter
SF SM SMM
Surface area/unit, square feet per foot square meter per meter square millimeter per meter
SFF SM_M SMM_M
Temperature, degrees Celsius Temperature, degrees Fahrenheit Temperature, degrees Kelvin Temperature, degrees Rankine
DC DF DK DR
Unitless alphanumeric
AN*xx where xx defines the number of characters
Unitless integer Unitless real number
INT DEC
Weight, pounds Weight, kilogram
LB KG
Weight/unit, pounds per foot Weight/unit, kilograms per meter
LBF KGM
8. Table Formats
Pressure, inches water at 32 deg Pressure, inches mercury absolute Pressure, inches mercury at 32 deg Pressure, kg per cm squared (gage) Pressure, kg per cm squared (absolute) Pressure, mm water at 4 deg Pressure, mm mercury at 32 deg Pressure, megaPascal (gage)
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8.1.6
Fields (Input/Output Columns) Attributes can consist of the following field types. The system determines the field type on the basis of data provided in each table. -
NPD (for nominal diameter) INTEGER2 REAL4 (floating point) AN*x (alphanumeric, where x defines the number of characters up to a maximum of 8)
All entries in the tables are left justified. Field locations and field lengths defined with XXXXs, WWWWs and ZZZZZs in this document are observed. Fractions are not used to define any table value. Adjacent columns in a table are separated by one or more spaces. If a value in a table is not known, a hyphen (-) must be used in the corresponding field. The system interprets this entry as a blank value and displays a blank in reports, drawings, and other data outputs. Real numbers without decimals can be expressed with or without a decimal point. For example, a nominal diameter of twenty inches can be expressed as 20, 20. , or 20.0. For consistency, all delivered tables use the value 20 All alphanumeric values in a table must be enclosed in single quotes (’ ’). For example, ’ZZZZZ’ For tables with only one input column, the generic value ET_AL can be used in the input column. The system translates this entry to indicate that values in the immediately preceding line apply to any input value equal to or greater than the value in the current line.
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Table Conventions
8.1.7
NPD Values The following table is used to correlate English nominal pipe diameters with their corresponding metric values.
8.1.8
Nominal Pipe Diameter inches mm 14.00 350 16.00 400 18.00 450 20.00 500 22.00 550 24.00 600 26.00 650 28.00 700 30.00 750 32.00 800 34.00 850 36.00 900 38.00 950 40.00 1000 42.00 1050 44.00 1100 46.00 1150 48.00 1200
8. Table Formats
Nominal Pipe Diameter inches mm 0.125 6 0.250 8 0.375 10 0.500 15 0.750 20 1.000 25 1.250 32 1.500 40 2.000 50 2.500 65 3.000 80 3.500 90 4.000 100 5.000 125 6.000 150 8.000 200 10.00 250 12.00 300
Rating The following conventions apply to the rating attribute with respect to the naming of data tables: Ratings can be expressed in the PJS in any of the following formats: CLxxxx, xxxx#, or OTxxxx. However, table entries and file names representing the rating exclude the CL, #, or OT characters. This enables the same table to be used regardless of how the rating is defined. In the delivered PJS, these rating formats are used in accordance with the following criteria: CLxxxx refers to an ANSI or API pressure rating xxxx# refers to a pressure rating defined by an organization other than ANSI or API. OTxxxx refers to a rating that meets the applicable ANSI or API rating geometrically but not from a pressure carrying standpoint. An example is a valve supplied with flanged ends meeting the bolting pattern of ANSI CL150 pressure rating but with pressure carrying characteristics different from those of that ANSI rating. Female ends for plastic pipe are usually defined in terms of schedule/thickness and not in terms of rating. To make female ends for plastic pipe follow the rules for other female ends, the applicable schedule/thickness is used as the value for rating. If such rating values contain alphanumeric characters, the system strips all the alpha characters from the rating value and uses only the numeric values in accessing the applicable tables.
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If the rating in the PJS is expressed in alphabetic characters only, the system uses the characters to access a data table. The names of the data tables include all the alphabetic characters included in the PJS. GRAVHD can be used to identify the rating for components rated to sustain a nominal fluid head. This value can be used in the PJS and in the data tables. OTHER can be used to identify a nonstandard rating value. NONE can be used to identify the rating for components whose ends would normally require the rating value as part of the table name, but for which a rating does not apply. This value can be used in the PJS and in the data tables.
8.1.9
Schedule/Thickness Schedule or thickness values are shown for all applicable components. In order of preference, schedule and thickness are expressed in terms of: Generic schedules, such as S-STD, S-XS and S-XXS. If the schedule name exceeds the provided field length (for example, S-SDR13.5) it is defined in terms of its wall thickness. Specific schedules, such as S-40, S-60 and S-80. NREQD: This value is used in cases where all of the following conditions apply: — The thickness value is not required to purchase the component. — Empty weights are not significantly affected by actual thickness values. — Either stress analysis is not applicable, or the component is considered to be infinitely rigid in stress analysis calculations. Specific wall thicknesses: To insure compatibility between the data tables, the PJS, and wall thickness calculations, thickness is expressed as defined below. Trailing zeroes are not included. Decimal points are not included for numbers without decimals. .xxxx if the thickness is less than 1 inch x if the thickness is an even inch x.xxx if the thickness is 1 inch or larger *Cyyy: The need to perform a thickness calculation is triggered by an entry with the format *Cyyy in the Schedule/Thickness attribute of the Commodity Item entity. The letters that make up this code have the following meaning: — The character C ensures that the schedule/thickness for the applicable end of the component is determined by calculations using the thickness equation defined for the piping materials class in the Default Wall Thickness Equation attribute of the Piping Materials Class entity.
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Table Conventions
— The characters yyy define the casting, joint or structural grade quality factor (E) times 100. This factor is one of the parameters used in the thickness calculation. If you are defining a calculation for a seamless fitting (E=1) but want to match the thickness for the mating welded pipe (E=0.85), the quality factor for the pipe should be used. MATCH: The need to match the thickness of a component to that of the pipe of the same diameter and of option 1 is triggered by an entry with the format MATCH in the Schedule/Thickness attribute of the Commodity Item entity.
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8. Table Formats
To minimize duplication when the same thickness can be expressed for metallic materials in terms of either a generic or a specific schedule, the following convention is used. For a given nominal diameter, only the schedules shown in the line for that diameter are used in the PJS and in the data tables.
NomD 0.125 0.250 0.375 0.500 0.750 1.000 1.250 1.500 2.000 2.500 3.000 3.500 4.000 5.000 6.000 8.000 10.00 12.00 14.00 16.00 18.00 20.00 22.00 24.00 26.00 28.00 30.00 32.00 34.00 36.00 38.00 40.00 42.00 44.00 46.00 48.00 S-10S
S-5S
S-5S S-5S S-5S S-5S S-5S S-5S S-5S S-5S S-5S S-5S S-5S S-5S S-5S S-5S S-5S S-5S S-5S S-5S S-5S S-5S S-5S
S-10S S-10S S-10S S-10S S-10S S-10S S-10S S-10S S-10S S-10S S-10S S-10S S-10S S-10S S-10S S-10S S-10S S-10S S-10S S-10S S-10S S-10S S-10S S-10S S-10S
S-5S
S-10 S-10 S-10 S-10 S-10 S-10 S-10 S-10 S-10 S-10 S-10 S-10
S-10
S-20 S-20 S-20 S-20 S-20 S-20 S-STD S-STD S-STD S-XS S-XS S-XS S-XS S-XS S-XS
S-20
312 S-30 S-30 S-30 S-30 S-30
S-30 S-30 S-30 S-STD S-STD S-30 S-XS S-XS S-30
S-30
S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-40 S-40 S-40
S-40
S-40 S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-STD S-40 S-40 S-XS S-40 S-40
S-40S S-40S S-40S S-40S S-40S S-40S S-40S S-40S S-40S S-40S S-40S S-40S S-40S S-40S S-40S S-40S S-40S S-40S S-40S S-60 S-XS S-60 S-60 S-60 S-60 S-60 S-60 S-60
S-60
S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS
S-80 S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-XS S-80 S-80 S-80 S-80 S-80 S-80 S-80 S-80
S-80S S-80S S-80S S-80S S-80S S-80S S-80S S-80S S-80S S-80S S-80S S-80S S-80S S-80S S-80S S-80S S-80S S-80S S-80S S-100 S-100 S-100 S-100 S-100 S-100 S-100 S-100 S-100
S-100
S-120 S-120 S-120 S-120 S-120 S-XXS S-120 S-120 S-120 S-120 S-120 S-120
S-120
S-140 S-XXS S-140 S-140 S-140 S-140 S-140 S-140 S-140
S-140
S-160 S-160 S-160 S-160 S-160 S-160 S-160 S-160 S-160 S-160 S-160 S-160
S-160 S-160 S-160 S-160 S-160 S-160 S-160 S-160
S-160
S-XXS S-XXS S-XXS S-XXS S-XXS S-XXS
S-XXS S-XXS S-XXS S-XXS S-XXS S-XXS S-XXS S-XXS
S-XXS
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Table Conventions
8.1.10
Weight Tables Weight tables are required for the following thicknesses: For components made from pipe material: — If the thickness involved is covered by a schedule, tables are required for all commercially available schedules to the full range of their nominal diameter.
For components made from plate material, tables are required in 1/16 inch increments from 0.25 to 1.25 inches and in 1 inch increments from 12 to 144 inches.
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8. Table Formats
— If the thickness involved is not covered by a schedule, tables are required in 1/16 inch increments from 0.25 to 1.25 inches (inclusive), and from 22 inches to the full range of their nominal diameter.
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8.1.11
Abbreviations The following abbreviations are used to describe the table name formats in this document. (G) (R) BrchTbl Cmdty Code GCP GS MC Op Rat RCP Sc/Th Term TNF TS Type WC
Green Red Branch Table Commodity Code Green Connect Point Geometric Industry Standard (from CL575) Model Code Operator/actuator type (from CL550) Pressure Rating Red Connect Point Schedule/Thickness End Preparation (from CL330) Table Name Format Table Suffix (from CL576 and CL577) Termination type (BLT, FEM, or MAL) Weight Code (from CL578)
Refer to Variables for Generic Tables and Variables for Specific Tables for a description of the variables used in table definitions. Generally, values appearing in all uppercase characters (such as BLT or STUD) indicate a hard-coded value.
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Table Requirements
8.2
Table Requirements This section indicates which tables are required to place a particular type of component (such as a valve or fitting). The table groups listed in this section are used to store data required for interactive processing of piping and instrument components. The applicability of the various table groups is defined as a function of the termination types of the components as defined in the Piping Job Specification (PJS). Refer to the PDS Piping Component Data Reference Guide for a detailed description of the requirements for specific commodity items, instruments, and miscellaneous piping and instrument items.
8. Table Formats
Typically, the tables in the table combinations are used to store: The surface area and weight of water for the component. The dimensional parameters for the component. The empty weight of the component and/or data about valve operators.
8.2.1
Tables Required for Piping Components Valves (6Q1C) Termination Types Bolted(G) Male(G) Female(G) Bolted(G)-Male(R) Female(G)-Male(R)
Bolted(G)-Bolted(R) Bolted(G)-Female(R) Female(G)-Female(R) Female(G)-Bolted(R) Male(G)-Male(R)
Male(G)-Female(R) Male(G)-Bolted(R)
Operators
P15A P15B P59 P60A P25A P25B P59 P60A P26A P26B P59 P60A P26A P26B P59 P60A P27A P27B P59 P60A P31A P31B P60A P60B
Applicable Tables MC_GS_Term(G)_Rat(G)_A MC_GS_Term(G)_Rat(G)_B Cmdty Code (if operator code 24 & Text Font = 125 Under Line = 0.000000 [1] Piping Segment Data [1]
line_number_label
- Character (40)
*************************************** **************** Label Type = 2 **************** Label Name = Piping Component No Graphics Color = 4 Graphics Weight = 1 Graphics Style = 0 Text Color = 4 Text Weight = 1 Label Category = 0 Char Size = 0 Max Length = 20 Text Space = 0.300000 Number Line = 1 Text Font = 0 Enclosure Option = 9 Cell Enclosure Name = Leader Line = 1 Line Terminator Char = > Text Font = 125 Under Line = 0.000000 [1] Piping Component Data
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Report Label Data
[1]
piping_comp_no
- Character (20)
***************************************
13. Label Description Lib.
**************** Label Type = 200 **************** Label Name = No Label Enclosure Text Color = 4 Text Weight = 1 Label Category = 0 Char Size = 0 Max Length = 10 Text Space = 0.250000 Number Line = 2 Text Font = 0 Under Line = 0.000000 **************** Label Type = 201 **************** Label Name = Rectangle Enclosure Text Color = 4 Text Weight = 1 Label Category = 0 Char Size = 0 Max Length = 10 Text Space = 0.250000 Number Line = 2 Text Font = 0 Under Line = 0.000000 Attribute Data *************************************** **************** Label Type = 300 **************** Label Name = Piping Component ID [1] / [3]
Connect Point Piping Component Data
[1] commodity_name 2 - ’ / ’ [3] model_code 4 - 5 space(s) 5 - ’Connect Point
- Character (6) - Character (6) ’
*************************************** **************** Label Type = 301 **************** Label Name = Piping Comp Center [1] / [3]
Component Center Piping Component Data
[1] commodity_name 2 - ’ / ’ [3] model_code 4 - 5 space(s)
- Character (6) - Character (6)
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5
- ’Component Center’
*************************************** **************** Label Type = 353 **************** Label Name = Dgn Rvw Weld Label Weld Number: [2] - [4] Weld Type: [6] Piping NPD/OD: [8] - [10] PMC: [12] Weld Attributes 1 - ’Weld Number: ’ [2] weld_id - Character (16) 3 - ’ - ’ [4] weld_no_A - Character (8) 5 - ’Weld Type: ’ [6] weld_type_A - Character (20) 7 - ’Piping NPD/OD: ’ [8] nom_pipe_diam_A - Character (20) 9 - ’ - ’ [10] outside_diam_A - Real (15.4) 11 - ’PMC: ’ [12] piping_mater_class - Character (16) *************************************** **************** Label Type = 400 **************** Label Name = Comp cmdty code [1] Piping Component Data [1]
commodity_code
- Character (16)
*************************************** **************** Label Type = 401 **************** Label Name = Pipe sch/thk 1 [1] Piping/Tubing Data [1]
schedule_thickness - Character (8)
*************************************** **************** Label Type = 404 **************** Label Name = 1/2CP COMP GCP [1] Piping Component Data [1]
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CP_1_NOM_PIPE_DIAM
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Report Label Data
*************************************** **************** Label Type = 405 ****************
13. Label Description Lib.
Label Name = 2CP RED COMP GCP X RCP [1] X [3] Piping Component Data [1] CP_1_NOM_PIPE_DIAM 2 ’X’ [3] CP_2_NOM_PIPE_DIAM *************************************** **************** Label Type = 408 **************** Label Name = 3CP RED COMP GCP x RCP [1] CP_1_NOM_PIPE_DIAM 2 ’X’ [3] CP_3_NOM_PIPE_DIAM *************************************** **************** Label Type = 410 **************** Label Name = 3CP COMP RCP [1] CP_3_NOM_PIPE_DIAM *************************************** **************** Label Type = 950 **************** Label Name = MAL nozzle descr [1] [3] Nozzle Data [1] nominal_piping_dia - Character (9) 2 - 1 space(s) [3] preparation - Character (8) *************************************** **************** Label Type = 951 **************** Label Name = Iso continuation [1][2]-[4][5] Piping Segment Data [1] unit_code [2] line_sequence_no 3 - ’-’ [4] fluid_code [5] design_area_number
- Character (3) - Character (16) - Character (5) - Character (12)
***************************************
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**************** Label Type = 1150 **************** Label Name = Line ID [1][2]-[4] Piping Segment Data [1] unit_code [2] line_sequence_no 3 - ’-’ [4] fluid_code
- Character (3) - Character (16) - Character (5)
*************************************** **************** Label Type = 1151 **************** Label Name = Iso no [1][2]-[4][5] Piping Segment Data [1] unit_code [2] line_sequence_no 3 - ’-’ [4] fluid_code [5] design_area_number
- Character (3) - Character (16) - Character (5) - Character (12)
*************************************** **************** Label Type = 2200 **************** Label Name = Specialty 2cp (1st) [1] Piping Component Data [1]
piping_comp_no
- Character (20)
*************************************** **************** Label Type = 2201 **************** Label Name = Specialty 3cp (1st) [1] Piping Component Data [1]
piping_comp_no
- Character (20)
***************************************
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Label Library Merger
13.3
Label Library Merger
Features Copy labels from one library to another. Delete an existing label from the destination library. Rename an existing label in the destination library. Compress the destination library. Validate the destination library.
13.3.1
Label Library Merger Interface This section contains descriptions of the Label Library Merger interface, including information on all dialog boxes and commands. The Label Library Merger commands are available from the toolbar and from menus.
495
13. Label Description Lib.
The Label Library Merger utility allows PDS users to copy labels from one or two label description libraries into another library and to modify the destination library as necessary. You can only add and remove labels with this command. To edit an existing label or create a new label definition, use the Label Description Library Manager command.
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The Label Library Merger dialog box contains three label description library views. The two views on the left display the contents of the source libraries, and the view on the right displays the contents of the destination library. Each library view is divided into two columns, Number and Description, which display the appropriate data for each label. You can click a heading in any library view to sort the labels by that heading. The bottom pane of the Label Library Merger dialog box is the message window, which displays errors and other informational messages during the library merge workflow.
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File Menu
13.3.1.1
File Menu
13.3.1.1.1
Open Source Label Library 1 This command opens a label description library from which to copy labels. You can key in or browse to the location of a source library. The system displays the label number and description in the Library 1 View.
13.3.1.1.2
13. Label Description Lib.
The commands on the File menu allow you to open libraries, display information in the Message Window, and exit the Label Library Merger.
Open Source Label Library 2 This command opens a second label description library from which to copy labels. Using a second source library is optional, and not required for the use of this command. The system displays the label number and description in the Library 2 View.
13.3.1.1.3
Open Destination Library This command opens a new or existing destination library, where labels from the source libraries are copied. The system displays the copied label numbers and descriptions in the Destination Library View. To create a new destination library, browse to the appropriate folder in the Open Destination Library dialog box, type a new library name in the File name text box, and click Open. The system will then create the new label description library in the specified location.
13.3.1.1.4
Information This command displays information in the Message Window regarding the source and destination libraries.
Example
MESSAGE: D:\WIN32APP\INGR\PDSHELL\lib\labels.l Opened as Source Label Library 1 MESSAGE: D:\WIN32APP\INGR\PDSHELL\lib\company_labels.l Opened as Source Label Li MESSAGE: D:\WIN32APP\INGR\PDSHELL\lib\all_labels.l Opened as Destination Label L
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13.3.1.1.5
Exit This command closes the Label Library Merger utility.
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Edit Menu
13.3.1.2
Edit Menu
13.3.1.2.1
Select All This command selects all the labels in the active view.
13.3.1.2.2
Unselect All This command resets selections so that no labels in the active view are selected.
13.3.1.2.3
Invert Selection This command switches the selection status of the labels in the active view, so that labels that are currently selected become unselected, and labels that are currently not selected become selected.
13.3.1.2.4
Edit Label Number This command allows users to modify the label number of the selected label in the Destination Library View.
13.3.1.2.5
Edit Label Description This command allows users to modify the label description of the selected label in the Destination Library View.
13.3.1.2.6
Delete This command removes the selected labels from the destination library.
13.3.1.2.7
Validate This command checks the labels in the destination library for valid label numbers, and reports any invalid label numbers in the Message Window.
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13. Label Description Lib.
The commands on the Edit menu allow you to modify your selections in the various views on the Label Library Merger dialog box, modify and delete the label information in the destination library, and check the destination library for errors.
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13.3.1.2.8
Compress Destination Library This command removes the deleted labels from the destination library.
13.3.1.2.9
Copy to Destination This command copies the selected labels from the source libraries to the destination library. The system uses the following criteria to determine label numbers: If there is no label in the destination library with the same label number as the label being copied, the label is copied with its original label number. If there is a label in the destination library with the same label number as the label being copied, the label is copied with a new label number, which is assigned using the following criteria: — If there is an unassigned label number in the copied label’s category in the destination library, the system assigns the next available label number in that category. — If there is no unassigned label number in the copied label’s category in the destination library, the system adds 5000 to the label number and copies the label. For example, label number 23 in the source library is copied to label 5023 in the destination library. Label numbers above 5000 generate errors in PDS. The Validate command reports any such label numbers in the Message Window. Refer to Label Description Library, page 465 for more information on label categories.
13.3.1.2.10
Clear Error Messages This command refreshes the Message Window.
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Help Menu
13.3.1.3
Help Menu
13.3.1.3.1
Contents This command displays the Label Library Merger online Help file.
13.3.1.3.2
About Library Merger This command displays the About dialog box with information about the Label Library Merger utility, including the version number and copyright date.
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13. Label Description Lib.
The commands in the Help menu display online Help and other information about the Label Library Merger utility.
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13.3.2
Workflow This section describes the general workflow for the Label Library Merger utility. 1.
Click Start > Programs > PD_Shell > PDS Label Library Merger to start the Label Library Merger utility. The Label Library Merger interface displays.
2.
Click File > Open Source Label Library 1.
3.
Browse to the location of the first label description library, select the library, and click Open. The system displays the contents of the library in the Library 1 View.
4.
Repeat the previous two steps for the second label description library. The system displays the contents of the library in the Library 2 View.
5.
Click File > Open Destination Library. You can either open an existing library for update or create a new library. The system displays the contents of the destination library in the Destination Library View.
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Workflow
Select labels in the existing label description libraries to copy to the destination library. Use CTRL+click to select multiple labels, or SHIFT+click to select a range of labels. Use the selection commands on the Edit menu to select all labels, unselect all labels, or invert your selections.
7.
Click Edit > Copy to Destination to copy the selected labels to the destination library. The system displays the copied labels in the Destination Library View.
8.
Click Edit > Edit Label Number or Edit > Edit Label Description to modify labels in the destination library as necessary.
9.
Click Edit > Validate to check the destination library for errors. The system displays any warnings in the Message View.
10.
Click Edit > Compress Destination Library to compress the destination library. The system displays any warnings in the Message View.
11.
When you are finished modifying the destination library, click File > Exit to exit the Label Library Merger utility.
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13. Label Description Lib.
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Piping Assembly Library
14.
Piping Assembly Library The Piping Assembly Language (PAL) enables you to define the parameters necessary to place a piping assembly (group of components) automatically in the model. This function is most useful for a commonly placed group of components. The PAL definition is compiled and stored in Piping Assembly Language object library and its text stored in the text library.
\win32app\ingr\pdshell\lib\assembly.l The PAL definition must be processed and stored in the Piping Assembly Library.
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14. Piping Assembly Lib.
A Piping Assembly Library which contain the definitions for basic assemblies (macros) is included in the product delivery.
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14.1
Piping Assembly Language The Piping Assembly Language provides a set of functions to define the placement operation. You can create a PAL definition outside the PDS environment using a text editor.
14.1.1
PAL Keywords The following list outlines all the keywords that can be used to create a PAL definition. Keywords followed by a number in (parentheses) such as NPD_A (3221), NPD_B (3222), NPD_C (3223) are used to create form gadgets for defining and placing piping assemblies. The number represents the application command number for the keyword. The key entry field number is this number minus 3000. (Therefore, the key entry field number for NPD_A is 221.)
Formbuilder Guidelines You can customize forms for the purpose of inputting data in the creation of a piping assembly, such as a control station. You can use the gadget numbers for the corresponding input fields. You must adhere to the following conventions when customizing form input fields for the applicable piping assembly. If not documented, any other gadgets on the form should remain consistent with those delivered by Intergraph. All input fields should be sequenced and must have the following characteristics. The Edit Field Options setting in the Form Builder should be Change Mode.
The characteristics form in the Form Builder should have the following settings. Notify Upon Completion - off (NOT the default) Notify at Initial Selection - off The forms delivered by Intergraph can be used as examples for customization. The following list the form builder data for the standard form gadgets.
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Piping Assembly Language
Help key: gadget number: button:
456 995 automatic
Form Size key: gadget number: button:
403 997 automatic
14. Piping Assembly Lib.
Exit key: gadget number: button:
4001 998 manual
Accept key: gadget number: button:
4002 999 manual
Message Area A - for messages gadget number: characters: lines deep: edit mode: font size:
251 40 3 review only 12
Message Area B - for active segment data display gadget number: characters: lines deep: edit mode: font size:
254 40 3 review only 12
Material description display gadget number: characters: lines deep: edit mode: font size:
150 80 3 review only 12
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Description # This keyword is used to specify a description for the piping assembly from within the assembly language file. Place a # in the first column of any line followed by a description of as many as 100 characters. Examples: # Control Station
Commands COMMAND This keyword is used with other keywords to initiate a defined action. Examples: COMMAND = GET_TUTORIAL_DATA COMMAND = UPDATE_APP COMMAND = POINT_IN_SPACE CONNECT This keyword defines the active point for the next component placed in the PAL definition. The specified reference point must be defined before using this option. Example: CONNECT TO REF_PNT_A PLACE This keyword defines the type of item to be placed. Refer to the PLACE Command Component keywords for a list of component/instrument types. Example: PLACE FITTING , 6Q2C01 , BY This keyword is used with the PLACE keyword to set the placement mode to be used in placing the specified component. Refer to the Connect Point keywords for a list of viable placement modes. Example: PLACE FITTING , 6Q2C01 , BY CP1 STEM This keyword is used with an orientation keyword to define the direction of the secondary axis. It can be used at the end of a PLACE statement.
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Piping Assembly Language
Example: PLACE FITTING , 6Q2C01 , BY CP1 , STEM = UP
PLACE Command Components FITTING, VALVE, FLANGE, BRANCH, PIPE, SPECIALTY, INSTRUMENT, OPTIONAL, TAP These keywords are used with the PLACE keyword to define the type of item to be placed. Example: FITTING , 6Q2C01 , BY CP1 BRANCH , 90_DEG , BY CP1 PIPE TO REF_PNT_A OPTIONAL , 6Q2C01, BY CP2
14. Piping Assembly Lib.
PLACE PLACE PLACE PLACE
RDB_INSTRUMENT, RDB_SPECIALTY These keywords are used to place instruments and specialty items that have been defined in the PJS using the tag number. Example: PLACE RDB_INSTRUMENT, INSVLV1, BY CP1
Connect Point CENTER, CP1, CP2, CP3, CP4, CP5 ACTIVE_PP FACE_OF_FLANGE_CP1, FACE_OF_FLANGE_CP2, FACE_OF_FLANGE_CP3 These keywords identify the connect point for an operation. They can be used with the BY keyword to indicate the means of placement. Example: PLACE VALVE, 6Q1C38, BY CP1 INLET_ELEVATION This keyword set the starting elevation or point of connection. Example: REF_PNT_A = ACTIVE_PP COORDINATE_1 = INLET_ELEVATION
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Orientation ACTIVE EAST, NORTH, UP WEST, SOUTH, DOWN These keywords identify the orientation direction. Example: PLACE FITTING, 6Q2C01, BY CP1, STEM = UP
No Material TakeOff NO_MTO=1 This keyword can be used immediately before a PLACE statement to specify that the component is not reportable. The system automatically resets MTO processing after placement.
Assembly End Keywords ASSEMBLY_END_A, ASSEMBLY_END_B These keywords define an assembly end point as a specified coordinate value. An assembly end definition is used to define the endpoints of an assembly. This is required when the assembly is being placed into a pipe so that the pipe is broken properly and the assembly inserted (as in the case of a valve assembly: flange - valve - flange). Example: ASSEMBLY_END_A = REF_PNT_A
Reference Point Keywords REF_PNT_A, REF_PNT_B, ... REF_PNT_T ACTIVE_PP, NOZZLE These keywords set reference points at specified coordinate values. You can define up to 20 points on the assembly for future reference in the PAL definition. Example: REF_PNT_A = CP_1 Once a reference point is defined, it can be used by a following statement in the PAL definition to indicate a coordinate location (for example, CONNECT TO REF_PNT_A).
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Generic End Types NULL_GEN_TYPE, BOLTED, FEMALE, MALE These keywords specify the generic termination type for use in conditional testing.
Number of Connect Points NUMBER_CPS
Example: IF (NUMBER_CPS .EQ. 2.0) THEN REF_PNT_A = CP2 ELSE REF_PNT_A = CP3 ENDIF
Commodity Item Name ITEM_NAME This keyword defines an item name to be used for placement. Example:
ITEM_NAME = xxxxxxx
COMPONENT_TAG (3246) This keyword defines the tag for the component to be placed. You can prompt for the tag or use the tutorial interface using the designated field and command numbers. Example:
COMPONENT_TAG = USER_INPUT
UORs per Model Subunit UORS_PER_SUBUNIT This keyword defines the number of UORs per Subunit defined in the model. It can be used to calculate tap location.
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This keyword contains the number of connect points of the component just placed. It can be used in branch placement to determine whether to use CP2 or CP3 as a reference point.
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Local Coordinates and Orientation APP_X, APP_Y, APP_Z These keywords define the active placement point which can be used in the connect to segment and point in space routines. These keywords are initially set to the active placement point of the assembly at the start of the assembly placement. COORDINATE_1 (3191) ... COORDINATE_12 (3203) DIMENSION_1 - DIMENSION_20 These keywords are used to receive user input from the tutorial to define the active placement point. The Coordinate keywords identify actual points and the Dimension keywords identify distances and offsets. The Coordinate keywords are only used for elevation values, not Easting or Northing values. Example: APP_Z = COORDINATE_1 COORDINATE_2 = INLET_ELEVATION LOCAL_X, LOCAL_Y, LOCAL_Z These keywords are defined as the active primary, secondary and normal axis at the time the assembly is placed. They are automatically set internally at the start of placement and cannot be modified.
Dimension Definition DIMENSION_1 (3141), DIMENSION_2 (3142), ... DIMENSION_20 (3160) The Dimension keywords identify distances and offsets.
Move Specified Distance MOVE_DISTANCE This keyword moves a specified distance in the direction of the active primary. It is useful in placing a variable length pipe by moving out a specified distanced and calling place pipe. Example: MOVE_DISTANCE = DIMENSION_1 PLACE PIPE TO REF_PNT_A
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Load Spec Data LOAD_SPEC_DATA This keyword reads the spec record for the commodity item and assigns values for the following keywords: TERM_TYPE_1, TERM_TYPE_2, ... TERM_TYPE_5 PR_RATING_1, PR_RATING_2, ... PR_RATING_5 GEN_TYPE_1, GEN_TYPE_2, ... GEN_TYPE_5
14. Piping Assembly Lib.
Example: LOAD_SPEC_DATA = ’6Q1C80’ IF ( GEN_TYPE_1 .EQ. BOLTED ) THEN OPTION_RATING = PR_RATING_1 OPTION_END_PREP = TERM_TYPE_1 PLACE OPTIONAL , 6Q2C01 , BY CP2 ENDIF
Setting First and Second Size FIRST_SIZE, SECOND_SIZE, NPD_STEP_UP, NPD_STEP_DOWN These keywords set the active first size or second size placement parameter a step down/up in the NPD piping material class table. (The system uses the next entry in the NPD table from the active size as the first/second size for a step up or next higher size and uses the previous entry in the NPD table from the active size as the first/second size for a step down or lower size). This particular statement in PAL is used as the active size (first or second) in the placement of all the following components, until the active size is redefined. If you do not include a line size in the PAL definition, the active size at the time of placement of the piping assembly will be used. Example:
FIRST_SIZE = NPD_STEP_DOWN
Coordinates of Component Just Placed COMPONENT_CENTER, CP_1_LOCATION, CP_2_LOCATION COMPONENT_CENTER_X, _Y, _Z CP_1_LOCATION_X, _Y, _Z CP_2_LOCATION_X, _Y, _Z These keywords define coordinate values for the component just placed. Example: TAP_LOCATION_Y = COMPONENT_CENTER_Y + DELTA_DISTANCE * UORS_PER_SUBUNIT
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Outside Diameter PIPE_OD_CP1, PIPE_OD_CP2 These keywords contain the pipe outside diameter at each connect point for the component just placed. These values can be used to calculate a tap location. Example: DELTA_DISTANCE = ( PIPE_OD_CP1 - PIPE_OD_CP2 ) / 4.0 FLANGE_OD_CP1, FLANGE_OD_CP2 These keywords contain the flange outside diameter at each connect point for the component just placed. These values can be used to calculate a tap location.
Tutorial Display and Acquisition DISPLAY_TUTORIAL, DISPLAY, DISPLAY_NUMERIC DISPLAY_TUTORIAL = ’PALCST’ PROMPT_MESSAGE = ’Keyin coordinates and valve data’ DISPLAY = prompt_message used to display any ascii keyword. DISPLAY_NUMERIC = npd_a used to display any numeric keyword. COMMAND = GET_TUTORIAL_DATA used to get data from the user at placement via a tutorial. GET_ASCII, GET_DECIMAL, GET_INTEGER These keywords get data of a specified type from a user keyin.
Prompt for ASCII Input USER_INPUT
Updating Active Place Point Example:
COMMAND = UPDATE_APP
The variables APP_X, APP_Y, and APP_Z are assigned the X, Y, and Z values of the current active placement point. This command is useful for variable distance changes in assemblies, and you need to know the new coordinates.
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Point in Space Example:
COMMAND = POINT_IN_SPACE
The values of the keywords APP_X, APP_Y, APP_Z are used to define the active placement point that is not connected to piping or a piping segment. These keywords need to be set before POINT_IN_SPACE is called.
Connect to Piping Segment CONNECT TO APP
The command syntax is the same as for connecting to a reference point except that the keywords APP_X, APP_Y, APP_Z are used as the coordinates. These points are assumed to lie on a piping segment whereas a reference point identifies a connect point. The keywords should be set before this command is called.
Orientation of Primary and Secondary ORIENTATION, PROMPT, ORIENT_SECONDARY, ORIENT_PRIMARY, INVERT ORIENT_PRIMARY = LOCAL_X This statement orients the primary axis to be the same as the primary at the beginning of the assembly placement. ORIENT_SECONDARY = LOCAL_Y This statement orients the secondary to be the same as the secondary at placement. ORIENT_SECONDARY = INVERT This statement allows the secondary to be inverted from its current position. You can also use INVERT for the primary axis.
Placement of BRANCH using Table Lookup 90_DEG, 45_DEG, VARIABLE Example:
PLACE BRANCH, 90_DEG , BY CENTER
This statement performs a table lookup on the 90 degree branch table to determine the branch component type given the current first and second size. If the branch is on a piping segment or in free space, then Placement BY CENTER should be used. If you are placing fitting to fitting, you should specify connect point placement (BY CP1).
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Example:
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Placement of OPTION flange OPTION_RATING, OPTION_END_PREP Example: IF ( END_PREP_A .GE. 2.0 .and. END_PREP_A .LE. 199) THEN OPTION_RATING = RATING_A OPTION_END_PREP = END_PREP_A PLACE OPTIONAL, 6Q2C01 , BY CP2 ENDIF The keywords OPTION_RATING and OPTION_END_PREP values are used to determine which option to use for the specified flange. OPTION_TBL_SUFFIX TBL_SUFFIX_GREEN, TBL_SUFFIX_RED END_PREP_1, END_PREP_2, ... END_PREP_5 TBL_SUFFIX_A (301), TBL_SUFFIX_B (302), ... TBL_SUFFIX_E (305) These keywords provide the ability to select the correct optional flange, when the flange is being placed by its welded end.
Placement of Optional Components OPTION_CODE Examples: OPTION_CODE = PROMPT OPTION_CODE = 790 This keyword sets the option code for the next component placed. If the PROMPT keyword is used, the system activates the Option Code Selection tutorial at placement to enable the user to select the option code. Otherwise the option code is hard-coded.
Placement of Variable length pipe Example:
PLACE PIPE TO REF_PNT_E
Logical Marks CHECK_MARK CHECK_MARK_1 (3161), CHECK_MARK_2 (3163), ... CHECK_MARK_20 (3180)
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The check marks are logical keywords that can be accessed through the tutorial. They can be used for testing for placement of components, etc. Initially they are all set to true.
Changing Piping Materials Class within an Assembly ACTIVE_MATERIALS_CLASS (3205) MATERIALS_CLASS_A (3206), MATERIALS_CLASS_B (3207), MATERIALS_CLASS_C (3208)
14. Piping Assembly Lib.
MATERIALS_CLASS_D (3264), MATERIALS_CLASS_E (3265), ... MATERIALS_CLASS_J (3270) Example: MATERIALS_CLASS_B = USER_INPUT ACTIVE_MATERIALS_CLASS = MATERIALS_CLASS_B The values for materials class can be: - obtained from the tutorial using the predefined fields - defined by prompt (USER_INPUT) - hard-coded in the PAL definition. The values for MATERIALS_CLASS_A, through _J are stored locally until a statement with ACTIVE_MATERIALS_CLASS is executed. At that time, the Materials Class in the active data is updated to the assigned value. This enables you to obtain up to three different classes from the tutorial at the start which can be used as needed in the definition.
Component Attributes NPD_A (3221), NPD_B (3222), NPD_C (3223) NPD_D (3284), NPD_E (3285), ... NPD_J (3290) These keywords store nominal piping diameter values. END_PREP_A (3231), END_PREP_B (3232) These keywords store end preparation values. RATING_A (3236), RATING_B (3237) These keywords store pressure rating values. SCHEDULE_A (3241), SCHEDULE_B (3242) These keywords store schedule/thickness values.
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Setting Bend Angle ACTIVE_BEND_ANGLE (3211) BEND_ANGLE_A (3212), BEND_ANGLE_B (3213), ... BEND_ANGLE_E (3216) Example: BEND_ANGLE_A = PROMPT ACTIVE_BEND_ANGLE = BEND_ANGLE_B The values for bend angle can be - obtained from the tutorial using the predefined fields - defined by prompt - hard-coded in the PAL definition The active bend angle in the model is not set until a statement with ACTIVE_BEND_ANGLE is executed. At that time, the active bend angle is assigned the appropriate value and the next component placed uses that value. The active bend angle is set to 0 after placement.
Component Group COMPONENT_GROUP, ON, OFF Example:
COMPONENT_GROUP = ON
This statement causes the system to search for the next available component group number. This number is assigned to the component group number attribute of each subsequent component placed until the statement COMPONENT_GROUP = OFF is executed or the assembly is completed.
Local Variables You can use local variables to store values for use in defining a piping assembly. You can use any alphanumeric string as long as it is not reserved as a keyword.
Test Attribute Values T12C# - Piping Segment Data T34C# - Piping Component Data T50C# - Pipe Data T67C# - Instrument Component Data You can use these keywords to test specific values of the active segment data or active component data, where # refers to the column (attribute) number for the applicable database table. The active component data is represented by the last component placed or the component to which the user is connected.
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Pre-Define Attribute Values T34C# - Piping Component Data T50C# - Pipe Data T67C# - Instrument Component Data You can use these keywords to pre-define specific values for the component to be placed, where # refers to the column (attribute) number for the applicable database table. This functionality is similar to the Pre-Define Component Data option of the Place Component command.
Having the ability to pre-define the fabrication category within a control station piping assembly will enable you to automatically override the RDB specification of the fabrication category of a single field component, such as a small diameter control valve, in what would otherwise be a shop spool.
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If you pre-define a value for fabrication category, the component will be designated as having the fabrication category defined by user versus by system such that reconstructing the component will not override the user value with the value in the Reference Database.
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14.1.2
Placing Taps in Assemblies The syntax for placing taps in assemblies is outlined below: PLACE TAP , 2.0 , 1 where 2.0 is the tap NPD and 1 is the option code. PLACE TAP BY CPn CPn designates the connect point from which to obtain the tap data. The following PAL definitions should be used to specify the tap location before making the PLACE TAP request. TAP_LOCATION =
COMPONENT_CENTER CP_1_LOCATION CP_2_LOCATION COMPUTE_FOR_ELBOLET_USING_CP1 COMPUTE_FOR_ELBOLET_USING_CP2
— OR —
TAP_LOCATION_X = COMPONENT_CENTER_X CP_1_LOCATION_X +CP_2_LOCATION_X +TAP_LOCATION_Y = COMPONENT_CENTER_Y CP_1_LOCATION_Y +CP_2_LOCATION_Y +TAP_LOCATION_Z = COMPONENT_CENTER_Z CP_1_LOCATION_Z +CP_2_LOCATION_Z +-
+- delta_distance delta_distance delta_distance +- delta_distance delta_distance delta_distance +- delta_distance delta_distance delta_distance
The keywords PIPE_OD_CP1, PIPE_OD_CP2, FLANGE_OD_CP1, and FLANGE_OD_CP2 can be used to calculate the delta distance. These values are based on the component just placed in the assembly. For TAP_LOCATION_X, _Y, _Z, the X, Y, and Z represent a local coordinate system that is analogous to the orientation at Connect point 1 of the component flipped to point towards the inside of the component. The tap orientation should also be set before making the PLACE TAP request using the PAL orientation commands. The active orientation at time of placement (tap) is used.
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Sample Piping Assembly Files
14.1.3
Sample Piping Assembly Files This section presents sample PAL files from the delivered Piping Assembly Library. It lists the files and shows the resulting graphics created by the file. Refer to the Piping Design Graphics Reference Guide for more information on placing piping assemblies with the Place Component command.
DRAIN 14. Piping Assembly Lib.
# Drain assembly PAL ’DRAIN’ ! ! This assembly will place a drain. The user needs to place a 1" ! sockolet at the point the drain is desired. ! PLACE FITTING, 6Q3C88 , BY CP1 ! ! The data from the component spec is read into the keywords. ! TERM_TYPE_1 TO 5 gets the numeric value for end preparation (eg. 21) ! PR_RATING_1 TO 5 gets the pressure rating ! GEN_TYPE_1 TO 5 gets the textual value for end preparation (eg. MALE) ! LOAD_SPEC_DATA = ’6Q1C76’ ! ! This ’IF’ statement determines if an optional flange is needed before ! the gate valve is placed. ! IF ( GEN_TYPE_1 .EQ. BOLTED ) THEN OPTION_RATING = PR_RATING_1 OPTION_END_PREP = TERM_TYPE_1 PLACE OPTIONAL , 6Q2C01 , BY CP2 ENDIF ! ! Places a gate valve. Notice in the spec that this type of gate valve ! is different than a 6Q2C01. ! PLACE VALVE, 6Q1C76 , BY CP1 IF ( GEN_TYPE_2 .EQ. BOLTED ) THEN OPTION_RATING = PR_RATING_2 OPTION_END_PREP = TERM_TYPE_2 PLACE OPTIONAL , 6Q2C01 , BY CP1 ENDIF ! ! This command allows the user to pick which component to place. If the ! option command is not used the s/w will choose option 1. In this instance, ! without the OPTION_CODE command will cause an error because there are no ! option 1 attributes available for 6Q2C16. Another possiblilty would be to ! use OPTION_CODE = PROMPT. The user will be prompted for which component is ! desired. ! OPTION_CODE = 163 PLACE FITTING, 6Q2C16 , BY CP1 END
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Graphics Placed by Drain Assembly
Pump Discharge Assembly # Pump Discharge PAL ’PDISC1’ ! ! Pump Discharge ! ! DISPLAY_TUTORIAL = ’PAS010’ NPD_A = FIRST_SIZE DISPLAY_NUMERIC = NPD_A NPD_B = SECOND_SIZE DISPLAY_NUMERIC = NPD_B PROMPT_MESSAGE = ’Enter Reducer First Size DISPLAY = PROMPT_MESSAGE COMMAND = GET_TUTORIAL_DATA
’
PLACE FLANGE , 6Q2C01 , BY CP1 FIRST_SIZE = NPD_A DELTA_DISTANCE = ( PIPE_OD_CP1 * 0.5 - PIPE_OD_CP2 * 0.5) / 2.0 PLACE FITTING , 6Q2C23 , BY CP2 TAP_LOCATION_Y = COMPONENT_CENTER_Y - DELTA_DISTANCE * UORS_PER_SUBUNIT ORIENT_PRIMARY = LOCAL_Y ORIENT_SECONDARY = LOCAL_X PLACE TAP BY CP1 REF_PNT_A = CP1 REF_PNT_B = CP3 CONNECT TO REF_PNT_B NPD_C = SECOND_SIZE DISPLAY_NUMERIC = NPD_C PROMPT_MESSAGE = ’Enter Branch Size DISPLAY = PROMPT_MESSAGE COMMAND = GET_TUTORIAL_DATA SECOND_SIZE = NPD_C PLACE BRANCH , 90_DEG , BY CP1 OPTION_CODE = PROMPT PLACE FITTING , 6Q3C88 , BY CP1
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Sample Piping Assembly Files
ORIENTATION = PROMPT PLACE VALVE , 6Q1C80 , BY CP1 CONNECT TO REF_PNT_A PLACE FLANGE , 6Q2C01 , BY CP2 PLACE VALVE , 6Q1C38 , BY CP1 ORIENTATION = PROMPT PLACE VALVE , 6Q1C01 , BY CP1 PLACE FLANGE , 6Q2C01 , BY CP1 END
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Graphics Placed by Pump Discharge Assembly
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Piping Assembly Library Manager
14.2
Piping Assembly Library Manager The Piping Assembly Library Manager enables you to create a new (empty) piping assembly library or create, revise, and delete piping assembly definitions in an existing library. The Piping Assembly Language (PAL) enables you to define the parameters necessary to place a piping assembly (group of components) automatically in the model. This function is most useful for a commonly placed group of components. Refer to Piping Assembly Library, page 505, for more information on this library and refer to Piping Assembly Language, page 506, for more information on the PAL files.
14. Piping Assembly Lib.
Before using this command Define the location of the approved and unapproved (if applicable) Assembly Library files in the Reference Database Management Data. You must have write access to the specified file and directory path.
14.2.1
Options Create Library — used to create a new Piping Assembly Library. See page 527. Compress — used to compress the Piping Assembly library. See page 527. Unapproved ==> Approved — used to copy the unapproved Piping Assembly library to the approved library. See page 527.
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Create/Interactive Data — used to compile Piping Assembly Language source files and insert them in the Piping Assembly Library. See page 528. Create/Batch Data — used to compile Piping Assembly Language Source files via batch processing. See page 529. Revise Data — used to select an PAL module from the library, edit the file, and put the revised file back into the library. See page 530. Delete Data — used to remove an PAL module from the library. See page 532. Report Data — used to create a report of the library contents. See page 533. List Data — used to display the Eden modules in the library. See page 534. Extract Data — used to extract an Eden module from the library for editing or printing. See page 535. Full List / Sub-string — You can set the toggle at the bottom of the form to determine the assembly data tables to be listed. Full List lists all the assembly definitions in the Assembly Library. Sub-string limits the list to those files which contain a specified substring.
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Create Library
14.2.2
Create Library This option is used to create a new Piping Assembly Library. It automatically creates the object library (.l) and the text library (.l.t) for the library that is being created. The system displays the approved and unapproved Piping Assembly Library names as defined in the RDB Management Data. Accept to Create or Exit to Avoid Creating New Library
14.2.3
Compress This option is used to compress the Piping Assembly library. Any tables which have been deleted from the library will be removed.
14.2.4
Unapproved ==> Approved This option copies the unapproved Piping Assembly library to the approved library. Accept to Copy or Exit to Avoid Copying Select Accept to copy the unapproved library file to the approved library.
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Select Accept to create the specified library files. If you specify an existing library file, the system displays an error indicating the library already exists.
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14.2.5
Create/Interactive Piping Assembly Data This option enables you to compile PAL source code into object code and insert the specified files into the Piping Assembly library. You can process a single file or specify a list of files to be created. Refer to the description of the Piping Assembly Library for more information on Piping Assembly Language modules.
Before using this command To add more than one PAL file to the library, create a list file which identifies the names of the source files to be added. The list file should contain one entry (source file name) per line. Set Assembly Path and Assembly Node in the RDB Management Data to the location of the assembly source files.
Operating Sequence 1.
Select the Create/Interactive option.
2.
Set the toggle to Single to process a single source file or to List to process a list file.
3.
Specify Filename for Processing Key in the name of the PAL file or list file to be compiled and added to the active library.
4.
The system displays the default node name and path for the location of the PAL files at the bottom of the form. You can use the default options or override the values for this operation.
5.
Accept or Select Other Option Accept the file to begin processing.
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Create/Batch Assembly Data
14.2.6
Create/Batch Assembly Data This option enables you to compile PAL source code into object code and insert the specified files into the Piping Assembly library. The specified files are submitted to the batch queue PDreference for processing.
Before using this command
Set Assembly Path and Assembly Node in the RDB Management Data to the location of the assembly source files.
Operating Sequence 1.
Select the Create/Batch option.
2.
Set the toggle to Single to process a single source file or to List to process a list file.
3.
Specify Filename for Processing Key in the name of the PAL file or list file to be compiled and added to the active library and select Accept.
4.
The system displays the default node name and path for the location of the PAL files at the bottom of the form. You can use the default values or override the values for this operation.
5.
Accept to Submit or Specify Submit Time Set the toggle to Submit Immediately or Delayed Submit. For Delayed Submit set the time and day to process the files.
6.
Accept the file to begin processing. The system submits the request to the batch queue PDreference.
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To add more than one PAL file to the library, create a list file which identifies the names of the source files to be added. The list file should contain one entry (source file name) per line.
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14.2.7
Revise Piping Assembly Data This option enables you to select a PAL module from the library, edit the file, and then compile the file and put it back in the library.
Before using this command Set the toggle to Full List or Sub-string to determine the PAL files to be listed.
Operating Sequence 1.
Select the Revise option. The system displays the PAL modules in the Piping Assembly Library.
2.
Select Assembly for Revision Select the PAL modules to be revised and select Accept.
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Revise Piping Assembly Data
3.
The system extracts the specified file from the library and activates the text editor (specified for PD_EDITOR in the control.sh file) to enable you to modify the file.
14. Piping Assembly Lib.
Make any changes to the displayed file. When you exit the text editor, the system compiles the revised file and inserts it back into the library. (If you quit the text editor, the file is not recompiled.) If an error occurs in revising a piping assembly, the system invoke the editor automatically to give you an opportunity to correct the problem. 4.
You can select other files to edit or select exit to return to the data management form.
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14.2.8
Delete Piping Assembly Data This option enables you to delete a PAL module or set of PAL modules from the Piping Assembly Library.
Before using this command Set the toggle to Full List or Sub-string to determine the PAL files to be listed.
Operating Sequence 1.
Select the Delete option. The system displays the table files in the active library.
2.
Select Module for Deletion Select the modules to be deleted from the list of modules. You can use the scroll bar to scroll through the available files.
3.
Accept or Select Other Option Accept the modules and begin processing. The system deletes the modules from the Piping Assembly Library.
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Report Assembly Data
14.2.9
Report Assembly Data This option enables you to create a list file of all the PAL modules in the Piping Assembly Library.
Operating Sequence Select the Report option from the Data Management form.
2.
Revise Report Parameters
14. Piping Assembly Lib.
1.
Key in the file information for the location of the report file to be created. 3.
Select Print or Print/Save. Then select the print queue from the list of displayed queues. Refer to the section on Plot and Print Queues in the Project Administrator Reference Guide for information on setting up multiple print queues. If you select the Print/Save option, the system will create a file named assemblies in the default source file location.
4.
Accept to Form Report Select Accept to create the specified report file.
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14.2.10
List Assembly Data This option displays all the PAL modules for the Piping Assembly Library.
Before using this command Set the toggle to Full List or Sub-string to determine the PAL modules to be listed.
Operating Sequence 1.
Select the List option. The system displays the PAL modules in the Piping Assembly Library.
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2.
You can use the scroll bar to scroll through the available files.
3.
Select Cancel to exit the form.
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Extract Assembly Data
14.2.11
Extract Assembly Data This option enables you to extract an PAL module out of the Piping Assembly Library for editing or printing.
Before using this command Set the toggle to Full List or Sub-string to determine the PAL files to be listed.
14. Piping Assembly Lib.
Define the node name and path for the location of the PAL files in the Default Project Control Data or using the fields at the bottom of the Assembly Data Management form.
Operating Sequence 1.
Select Extract from the Data Management form.
2.
Select Assembly for Extraction Select the modules from the list of files and select Accept. You can use the scroll bar to scroll through the available files. The system pulls the files out of the library and places them in the default directory specified in the Project Control Data. The system also writes the names of the extracted files to a file named PD_pal_list. If the list file is less than 24 hours old, the system appends the entries to the file, otherwise it overwrites the file.
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Reference Database Revision Manager
15.
Reference Database Revision Manager This command creates a set of reports used to coordinate revisions in the Reference Database and the implied changes which are required in the model. Each of the four reports listed is created in the directory for the applicable model. Creation of any of these reports also generates a summary report. The summary report is created and named according to user-specified information provided on the Reference Database Revision Manager form. Selecting the option to print the summary report will also force the printing of the individual report that initiated the creation of the summary report.
15. Revision Manager
Options Reference Data Conflict Report — Creates a report of piping or instrument components (including piping and tubing) in any model within the project that have any specification data that is in conflict with the appropriate Piping Commodity Data, Piping Specialty Data, or Instrument Data of the Material Reference Database. The RDB Conflict Report file has an extension of .rpt and is created in the model directory as .rpt . Refer to the section entitled Hierarchy of Reported Discrepancies found at the beginning of this chapeter for information on the order of significance of reported problems.
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You should run this report when segment data or RDB data (such as in the Piping Job Specification Database, the Piping Job Spec Tables, and the Physical Dimension Tables) have been changed and you wish to determine which components need to be reconstructed or updated from the RDB. Table Change Report — Creates a report of all piping or instrument components (including pipes) in any model within the project that are affected by a change to a specific table for a specific input or set of inputs. Both geometric changes as a result of revisions to dimension tables and changes in weight data as a result of revisions to weight tables are reported. The Table Change Report file has an extension of .tcr and is created in the model directory as .tcr . If your project was created with PDS version 6.0, use the Reference Data Conflict Report instead. Reference Data Impact Report — Creates a report, based on user-defined search criteria, of the effects of modifying individual component attributes in the current approved RDB. The RDB Impact Report file has an extension of .imp and is created in the model directory as .imp . Proposed RDB Changes Report — Creates a single report assessing the effect of multiple changes in the unapproved Material Reference Database. The Proposed RDB Changes Report file has an extension of .pcs and is created in the model directory as .pcs . This report does not update the model. Print/Delete — This option deletes the summary report after it is printed. Selecting this option activates the queue pick list which allows you to select the appropriate print queue. Print/Save — This option does not delete the summary report after it is printed. Selecting this option activates the queue pick list which allows you to select the appropriate print queue. Save — Saves the report in the model directory, and saves the summary report in the user-specified directory. This option does not print the summary report.
Field Descriptions Report Node — Specifies the node on which the summary report will be created. Report Path — Specifies the directory in which the summary report will be created. Report Name — Specifies the name that will be used for the summary report file.
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Reference Database Revision Manager
Summary of Report Parameters and Discrepancy Hierarchy The following chart summarizes some of the parameters used in the processing and creation of the reports available form this command:
Discrepancies are reported according to the significance of the problem they represent. In all cases, the most severe problem will be the problem that is reported. The hierarchy of the problems reported is as follows: Item not found in the spec.
2.
Dimension tables have changed.
3.
Discrepancy between component connect point NPD and segment NPD.
4.
Discrepancy between model and RDB for any of the following attributes: end preparation - green pressure rating - green schedule/thickness - green table suffix - green end preparation - red pressure rating - red schedule/thickness - red table suffix - red
5.
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1.
commodity code model code modifier geometric industry standard weight code fabrication category materials grade
Weight tables have changed.
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15.1
Reference Data Conflict Report This option creates a report of piping or instrument components (including piping and tubing) in any model within the project that have any specification data that is in conflict with the appropriate Piping Commodity Data, Piping Specialty Data, or Instrument Data of the Material Reference Database. The output file for this report has an extension of .rpt. This command is used to coordinate between revisions in the Reference Database and the implied changes which are required in the model. It also reports piping and instrument components that require reconstruction or recalculations as a result of piping segment data changes in the model. The Reconstruct Component command is required for any component which has geometric type specification data revised. The Update from Reference Database command is required for any component which has non-geometric specification data (such as commodity code or weight table) revision. The Re-Compute Thickness command is required for any component which has been reported as requiring calculations as a result of changes in the material tables or thickness tables. You can use the Review Reference Database Revision Management Report command to review any component in the model requiring reconstruction or an update of the specification data as a result of changes to the Material Reference Database. This command allows you to review any component in the model requiring reconstruction or replacement as a result of RDB changes or deletions from the Material Reference Database. In support of this review capability, an indexed file, the RDB Revision Management Component List, is created in the same directory as the model with the name .rdb. Refer to the Piping Design Graphics Reference Guide for more information on this command. Any component, previously reported as having required reconstructing or updating, which has been deleted from the model, will not be included in any future reports or in the RDB Revision Management Component List. Likewise, the RDB Revision Management Component List will be automatically compressed as part of the report creation process. The system will not report a component as requiring reconstruction or updating from the RDB solely on the basis of the requirement to reconstruct flag being set for the piping segment associated with that component. The Reference Data Conflict Report will clear the requirement to reconstruct (or recalculate) flag if it determines there are no discrepancies for the component associated with that piping segment. The system will not report a component as requiring reconstruction or updating from the RDB as the result of changing any attributes of an Implied Item.
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Before using this command You should not access any piping model for an interactive design session while a Reference Database Revision Management report is being created.
Processing Piping Commodities The system extracts the following data from the model for the purpose of reading piping commodity specification data from the Material Reference Database. This is the same data that is used for the placement or reconstruction of a piping commodity. piping materials class commodity name first size
second size option code maximum temperature
If the piping commodity in the model is a branch that was initially placed using a branch table from the Reference Database, the system reads the appropriate branch table from the Piping Materials Class data to determine if there has been a change in the commodity name for the branch. If so, this component is flagged as requiring reconstruction. The system compares the following data for consistency between the model and the Reference Database for piping commodities. That data which may impact the geometry and/or the symbology in the model is designated by an asterisk. * end preparation - green * pressure rating - green * schedule/thickness - green * table suffix - green * end preparation - red * pressure rating - red * schedule/thickness - red * table suffix - red
* commodity code * model code * modifier * geometric industry standard weight code fabrication category materials grade
Note that user overrides of fabrication category and schedule/thickness will not be included in the report.
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The first size and second size are determined from the piping segment data and not from the component itself.
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The system compares the gasket thickness for each bolted end of a piping commodity with the gasket separation in the corresponding Piping Materials Class data. If a value is defined in the Reference Database, the gasket thickness at the bolted end is compared with that value. If a Gasket Separation Table name is defined, that table is used to determine a gasket separation value for comparison with the gasket thickness at the bolted end. When a component is placed next to an integral gasket, the gasket thickness is set to zero in the model. As a result, the Reference Data Conflict Report may report a gasket thickness error for such components. The report compares the component gasket thickness in the model (0) with the component gasket thickness defined in the reference data, which may be different from 0, without considering the mating component data. Such errors should be ignored. The system compares the NPD at each connect point of the component with the NPD of the segment. The system compares the schedule thickness data for a component in the model to the corresponding data in the Material Reference Database. The comparison will consider the following issues at a minimum: the application of the schedule/override in the model. changes to the value for the schedule thickness in the Piping Commodity Data within the Material Reference Database. changes to the joint efficiency value in the Piping Commodity Data within the Material Reference Database. changes to the value for the thickness equation in the Piping Materials Class Data within the Material Reference Database. changes to the Thickness Data Table or the Materials Data Table. Refer to the section entitled Summary of Report Parameters and Discrepancy Hierarchy found at the beginning of this chapeter for information on the order of significance of reported problems. The RDB Conflict Report does not identify discrepancies between taps placed in the model and the RDB Tap Properties Data tables used to place the taps.
Piping Specialties and Instruments The system extracts the component number from the model for the purpose of reading piping specialty and instrument specification data from the Material Reference Database. The component number is also used for the placement or reconstruction of a piping specialty or an instrument. For example, instrument_comp_no is used for instruments, and piping_comp_no is used for piping specialties.
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The system compares the following data for consistency between the model and the Reference Database for piping specialties and instruments. That data which may impact the geometry and/or the symbology in the model is designated by an asterisk. * end preparation - green * pressure rating - green * schedule/thickness - green * table suffix - green * end preparation - red * pressure rating - red * schedule/thickness - red * table suffix - red
* physical data id * model code * modifier * geometric industry standard weight code fabrication category materials grade
The system compares the gasket thickness for each bolted end of a piping specialty or instrument with the gasket separation in the corresponding Piping Materials Class data. If a value is defined in the Reference Database, the gasket thickness at the bolted end is compared with that value. If a Gasket Separation Table name is defined, that table is used to determine a gasket separation value for comparison with the gasket thickness at the bolted end. The system compares the green specification data in the Reference Database with all connect points for that component in the model which are designated as having green connect point properties.
The system compares the schedule thickness data for a component in the model to the corresponding data in the Material Reference Database. The comparison will consider the following issues at a minimum: the application of the schedule/override in the model. changes to the value for the schedule thickness in the Piping Commodity Data within the Material Reference Database. changes to the joint efficiency value in the Piping Commodity Data within the Material Reference Database. changes to the value for the thickness equation in the Piping Materials Class Data within the Material Reference Database. changes to the Thickness Data Table or the Materials Data Table. The RDB Conflict Report does not identify discrepancies between taps placed in the model and the RDB Tap Properties Data tables used to place the taps.
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The system compares the red specification data in the Reference Database with all connect points, if any, which are designated as having red connect point properties.
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Operating Sequence 1.
Select the Reference Data Conflict Report option. The system activates the Reference Data Conflict form.
2.
Select the extent of the project to be processed. Project — process all piping models for the entire project. Piping Design Area — process the selected piping design areas. Models — process the selected models within a selected design area.
3.
You can key in changes to the Report Node, Report Path, and Report Name for the summary report output or use the default location and name. The default location for the summary report is determined by the Report Management Data of the Report Manager.
4.
Select the desired output method for the summary report: Print/Delete, Print/Save, or Save. If you will be printing the summary report, select a queue from the pick list.
5.
Accept to Submit Job, Restart or Exit Set the toggle to Submit Immediately or select Delayed Submit and fill in the day and time to process the request.
6.
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Select Accept to submit the request for processing.
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Reference Data Conflict Report
The system submits the request to the batch queue PDreport. It updates the batch log file periodically to include a list of piping models which have been processed. The Reference Data Conflict report file has an extension of .rpt and is created in the model directory as .rpt . If the summary report is printed as a result of creating this report, this report will also be printed.
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15.2
Table Change Report This option creates a report of all piping or instrument components (including pipes) in any model within the project that are affected by a change to a specific table for a specific input or set of inputs. Both geometric changes as a result of revisions to dimension tables and changes in weight data as a result of revisions to weight tables are reported. The output file for this report has an extension of .tcr. This report should be used only in the following situation: The RBD was revised and you did not reconstruct the affected components. Then you upgraded the project to PDS version 6.0, at which time all components were updated to have the new last_placed_date attribute set to the date the upgrade occurred. You will need to know the date the RDB was modified in order to find which components require reconstruction as a result of the RDB change. This report may return false discrepancies because it will include those items that were placed after the RDB was changed. In short, we recommend using this report only when the RDB is changed prior to upgrading to PDS version 6.0, and affected components have not been reconstructed to reflect the RDB change. The Reconstruct Component command is required for any component which has a dimension table revised and the Update from Reference Database command is required for any component which has a weight table revised.
Processing The system performs a virtual component placement for each component in a piping model (in a manner similar to that used by the Table Checker) to determine if that component has had any of its geometric or weight data derived from the specified tables. The system searches all piping and instrument components in all piping models within the project for the use of such tables and creates a report. In searching the model for components that have dimensional and weight data derived from the list of revised tables, the first size and second size are determined from the component’s data - not the piping segment data. This is due to the fact that reconstruction of the component will be required, if the nominal piping diameter of any segment associated with the component differs from the corresponding connect point size. The contents of this report include the following data, which is sorted by the piping model number and the line id within each piping model. piping model number line id component number (if applicable) commodity name (if applicable) model code dimension or weight tables
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The title page for the report will include the sub-title, Table Change Report. Piping specialties and instruments are excluded from this report when the specification data and the geometry data have been defined by the user (not defined in the Reference Database). You can use the Review Reference Database Revision Management Report command to review any component in the model requiring reconstruction or updating as a result of the component’s geometric or weight data being changed by a table revision. In support of this review capability, the system creates an indexed file, the RDB Revision Management Component List, in the same directory as the model with the name .rdb. Refer to the Piping Design Graphics Reference Guide for more information on the Review Reference Data Revision Report command. Any component, previously reported as needing reconstructing or updating, which has been deleted from the model, will not be included in any future reports or in the RDB Revision Management Component List. Likewise, the RDB Revision Management Component List will be automatically compressed as part of the report creation process. Piping and instrument components in any model which do not have a corresponding record in the applicable table of the Piping Design Database are ignored and excluded from the report. These components, if any, are reported through the Database Verification command of the Project Administrator.
15. Revision Manager
Operating Sequence 1.
Select the Table Change Report option. The system displays a list of Physical Data Libraries.
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2.
Select Table Library Select the Physical Data Library to process, such as U.S. Practice, DIN, or Company Practice and select Accept.
3.
Enter Date for Search ( dd-mmm-yy ) Key in a date (such as 10-Aug-95) in the Revision Date field to list all the tables that have been revised since the specified date.
4.
Accept, Re-enter Date or Choose Extent Set the toggle to Full List or Sub-String. For Sub-String, key in a string to limit the tables to be listed. — THEN — Select Accept to begin processing. The system displays a list of all dimension and weight tables (or those which match a specified substring).
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5.
Select Tables or Exit Select the dimension tables to be considered in the creation of the revision management report. — OR — You can select Process All to process all the listed tables (those which meet the specified revision date and substring). — THEN — Select Accept to process the selected tables. For each of the selected tables, the system displays the table data in the Table Data Display form.
15. Revision Manager
6.
Select Table Entry For each table, you can specify which entries (up to a total of 200 entries) in the table have been revised. Although the performance of the Reference Data Manager in creating the report will not be impacted by the number of dimension table entries that are to be considered for revision management, the list of components in the model will be impacted. For example, if you inadvertently identify entries which had not actually changed, you may create significant, unnecessary work.
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7.
Select the extent of the project to be processed. Project — process all piping models in the entire project. Piping Design Area — process the selected piping design areas. Models — process the selected models within a selected design area.
8.
The summary report path and report node are determined by the settings defined with the Report Manager. You can change the location or name for the summary report output or use the defaults.
9.
Select the desired output method for the summary report: Print/Delete, Print/Save, or Save.
10.
Accept to Submit Job, Restart or Exit Set the toggle to Submit Immediately or select Delayed Submit and fill in the day and time to process the request.
11.
Select Accept to begin processing the request. The system submits the request to the batch queue PDreport. It updates the batch log file periodically to include a list of piping models which have been processed. The table change report file has an extension of .tcr and is created in the model directory as .tcr . If the summary report is printed as a result of creating this report, this report will also be printed.
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Reference Data Impact Report
15.3
Reference Data Impact Report Selecting the Reference Data Impact Report command activates the Search Criteria form.
The RDB Impact Report file has an extension of .imp and is created in the model directory as .imp . This report does not include a graphical review capability.
15.3.1
Examples Example 1 As an example, assume that you want to know the impact of changing the vendor for a specific type of valve. You could define the search criteria to find all instances of valves with that specific geometric industry standard that would need to be reconstructed if the vendor were changed.
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This report is based on user-defined search criteria of attributes such as piping materials class, commodity code, commodity name, option code, maximum temperature, nominal diameter, end preparation, schedule thickness, table suffix, etc. The purpose of this report is to find which components (constrained by your search criteria) will be impacted by a change in the attributes as they exist in the current approved RDB. The RDB Impact Report search criteria are valid for Piping Material Class Data (pdtable_201) and Piping Component Specification Data (pdtable_202).
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Example 2 As a second example, assume that you are working with a project that uses spec A and spec B. Both of these specs contain the value X, for the vendor of gate valves. A model has been created that uses both spec A and B, and valves have been placed from both of these specs. Also, assume that spec B has been modified since the valves have been placed so that the vendor in spec B now has a value of Y (instead of X), and the model has not been updated to reflect this spec change. If the Reference Data Impact Report was run now to determine the impact of changing the vendor X, the system would scan the RDB for all occurrences of vendor X (which, at this time, would be only those placed from spec A), check the portions of the design you specified for occurrences of vendor X, then report the matching occurrences back to you. The resulting report would not list those valves from vendor X that were placed from spec B, because the occurrences of those valves in the model did not match the occurrences in the RDB (due to the model not being updated after the spec change).
Operating Sequence 1.
Select the Reference Data Impact Report command from the Reference Data Revision Manager form. The system activates the Search Criteria form, which prompts you to select the attribute to be restricted.
2.
Select Attribute Select the attribute to be restricted. After selecting attribute from the attribute display list, the system displays the selected attribute in a separate field and displays a list of operators.
3.
Select Operator Select an operator to define the search criteria. The system displays the selected operator and prompts you to key in an attribute value.
4.
Enter Attribute Value Key in the attribute value. For a sub-string search, key in a string to appear anywhere within the attribute value (do not use wild cards).
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If the attribute is code-listed, the system displays a list of values from the Standard Note Library. 5.
Select the value and select Accept. The system validates the input and displays the defined search criteria in the Search Criteria display field.
6.
Accept or Select And/Or Operator
Select AND to specify an additional condition or select OR to specify an alternative condition.
— OR — Accept the defined search criteria and activate the Reference Database Revision Manager form.
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7.
Revise the search criteria, if necessary, using the Revise Search Criteria option. — OR — Select the extent of the project to be processed. Project — Process all piping models for the entire project.
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Piping Design Area — Process the selected piping design areas. Models — Process the selected models within a selected design area. 8.
You can key in changes to the Report Node, Report Path, and Report Name for the summary report output or use the default location and name. The default location for the summary report is determined by the Report Management Data of the Report Manager.
9.
Select the desired output method for the summary report: Print/Delete, Print/Save, or Save. If you will be printing the summary report, select a queue from the pick list.
10.
Accept to Submit Job, Restart or Exit Set the toggle to Submit Immediately or select Delayed Submit and fill in the day and time to process the request.
11.
Select Accept to submit the request for processing. The system submits the request to the batch queue PDreport. It updates the batch log file periodically to include a list of piping models which have been processed. The reference data impact report file has an extension of .imp and is created in the model directory as .imp . If the summary report is printed as a result of creating this report, this report will also be printed.
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Proposed RDB Changes Report
15.4
Proposed RDB Changes Report This command creates a report assessing the impact of multiple changes in the unapproved RDB. Selecting this command from the Reference Data Revision Manager form activates the Proposed RDB Changes Report form. You must make changes to the unapproved Material Reference Database in order to assess the effect of these changes. You are responsible for restoring the unapproved Material Reference Database to its original state if you decide not to pursue these changes. Refer to the section entitled Summary of Report Parameters and Discrepancy Hierarchy found at the beginning of this chapeter for information on the order of significance of reported problems.
15. Revision Manager
Processing Piping Commodities The system extracts the following data from the model for the purpose of reading piping commodity specification data from the Material Reference Database. This is the same data that is used for the placement or reconstruction of a piping commodity. piping materials class commodity name first size
second size option code maximum temperature
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The first size and second size are determined from the piping segment data and not from the component itself. If the piping commodity in the model is a branch that was initially placed using a branch table from the Reference Database, the system reads the appropriate branch table from the Piping Materials Class data to determine if there has been a change in the commodity name for the branch. If so, this component is flagged as requiring reconstruction. The system compares the following data for consistency between the model and the Reference Database for piping commodities. That data which may impact the geometry and/or the symbology in the model is designated by an asterisk. * end preparation - green * pressure rating - green * schedule/thickness - green * table suffix - green * end preparation - red * pressure rating - red * schedule/thickness - red * table suffix - red
* commodity code * model code * modifier * geometric industry standard weight code fabrication category materials grade
Note that user overrides of fabrication category and schedule/thickness will not be included in the report. The system compares the gasket thickness for each bolted end of a piping commodity with the gasket separation in the corresponding Piping Materials Class data. If a value is defined in the Reference Database, the gasket thickness at the bolted end is compared with that value. If a Gasket Separation Table name is defined, that table is used to determine a gasket separation value for comparison with the gasket thickness at the bolted end. The system compares the specification data for any connect point of a piping commodity which has been designated as a tap with the appropriate data (either the specification data from the Tap Properties Data in the Reference Database or from another connect point. The system compares the NPD at each connect point of the component with the NPD of the segment. The system compares the schedule thickness data for a component in the model to the corresponding data in the Material Reference Database. The comparison will consider the following issues at a minimum: the application of the schedule/override in the model. changes to the value for the schedule thickness in the Piping Commodity Data within the Material Reference Database. changes to the joint efficiency value in the Piping Commodity Data within the Material Reference Database. changes to the value for the thickness equation in the Piping Materials Class Data within the Material Reference Database.
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changes to the Thickness Data Table or the Materials Data Table. Refer to the section entitled Summary of Report Parameters and Discrepancy Hierarchy found at the beginning of this chapeter for information on the order of significance of reported problems.
Piping Specialties and Instruments The system extracts the component number from the model for the purpose of reading piping specialty and instrument specification data from the Material Reference Database. The component number is also used for the placement or reconstruction of a piping specialty or an instrument. For example, instrument_comp_no is used for instruments, and piping_comp_no is used for piping specialties. The system compares the following data for consistency between the model and the Reference Database for piping specialties and instruments. That data which may impact the geometry and/or the symbology in the model is designated by an asterisk. * physical data id * model code * modifier * geometric industry standard weight code fabrication category materials grade
15. Revision Manager
* end preparation - green * pressure rating - green * schedule/thickness - green * table suffix - green * end preparation - red * pressure rating - red * schedule/thickness - red * table suffix - red
The system compares the gasket thickness for each bolted end of a piping specialty or instrument with the gasket separation in the corresponding Piping Materials Class data. If a value is defined in the Reference Database, the gasket thickness at the bolted end is compared with that value. If a Gasket Separation Table name is defined, that table is used to determine a gasket separation value for comparison with the gasket thickness at the bolted end. The system compares the specification data for any connect point of a piping specialty or instrument which has been designated as a tap with the appropriate data, i.e. either the specification data from the Tap Properties Data in the Reference Database or from another connect point. Piping specialties and instruments are excluded from this report when the specification data and the geometry data is defined by the user (not defined in the Reference Database). The system compares the green specification data in the Reference Database with all connect points for that component in the model which are designated as having green connect point properties. The system compares the red specification data in the Reference Database with all connect points, if any, which are designated as having red connect point properties. The system compares the schedule thickness data for a component in the model to the corresponding data in the Material Reference Database. The comparison will consider the following issues at a minimum:
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the application of the schedule/override in the model. changes to the value for the schedule thickness in the Piping Commodity Data within the Material Reference Database. changes to the joint efficiency value in the Piping Commodity Data within the Material Reference Database. changes to the value for the thickness equation in the Piping Materials Class Data within the Material Reference Database. changes to the Thickness Data Table or the Materials Data Table.
Operating Sequence 1.
Select the Proposed RDB Changes Report option. The system activates the Proposed RDB Changes form.
2.
Select the extent of the project to be processed. Project — process all piping models for the entire project. Piping Design Area — process the selected piping design areas. Models — process the selected models within a selected design area.
3.
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You can key in changes to the Report Node, Report Path, and Report Name for the summary report output or use the default location and name.
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Proposed RDB Changes Report
The default location for the summary report is determined by the Report Management Data of the Report Manager. 4.
Select the desired output method for the summary report: Print/Delete, Print/Save, or Save. If you will be printing the summary report, select a queue from the pick list.
5.
Accept to Submit Job, Restart or Exit Set the toggle to Submit Immediately or select Delayed Submit and fill in the day and time to process the request.
6.
Select Accept to submit the request for processing. The system submits the request to the batch queue PDreport. It updates the batch log file periodically to include a list of piping models which have been processed. The proposed RDB changes report file has an extension of .pcs and is created in the model directory as .pcs . If the summary report is printed as a result of creating this report, this report will also be printed.
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Verify RDB Library
16.
Verify RDB Library For releases prior to the 4.2 PDS release, a problem existed in the Reference Data Manager, such that the binary tree structure in a reference data library (such as the Graphic Commodity Library) could be corrupted without the user immediately detecting any problems with that library. Although the software problem was corrected in the 4.2 PDS release, the data problem that resulted may have persisted beyond that release, particularly if the library has not been compressed. As a final step within the project upgrade process, the system verifies the integrity of the binary tree structure within each of the reference data libraries. If an error is detected, a specific warning message will be reported, both interactively and in the upgrade log. In this event, you should contact Intergraph immediately for assistance in repairing the library. The Verify RDB Library utility has been provided to allow the capability to verify the integrity of the binary tree structure on demand. The Verify RDB Library icon is located in the PD_Shell program group on systems upon which the PD_Data software has been loaded locally; double-click on this icon to activate the command.
Steps 1.
Execute the command by double-clicking on the Verify RDB Library icon in the PD_Shell program group.
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The system activates the Reference Database Library Verification Utility form, and prompts you to select the appropriate project number from the list.
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2.
Select the desired project number, then select the Verify Reference Database Library command. The system begins the verification process and displays the Verifying RDB Library Files message. When processing is complete, the system returns a message similar to the one shown below:
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A typical output file has been excerpted below. No errors were found in this example. Opening : /onneso3a/rdb/lib/approved/618pjstb.l header number keys = 234 tree number keys = 234 Opening : /onneso3a/rdb/lib/approved/618pjstb.l.t header number keys = 234 tree number keys = 234 Opening : /onneso3a/rdb/lib/approved/618pjstb.l.r header number keys = 234 tree number keys = 234 Opening : /onneso3a/rdb/lib/approved/618shbom.l header number keys = 2877 tree number keys = 2877 Opening : /onneso3a/rdb/lib/approved/618lgbom.l header number keys = 2629 tree number keys = 2629 Opening : /onneso3a/rdb/lib/approved/618spbom.l Empty file, no keys. Opening : /onneso3a/rdb/lib/approved/618note.l header number keys = 4162 tree number keys = 4162
16. Verify RDB Library
Opening : /onneso3a/rdb/lib/approved/618note.l.t header number keys = 65 tree number keys = 65 Counting implied keys for code31 Counting implied keys for code35 Counting implied keys for code36 Counting implied keys for code37 Counting implied keys for code50 Counting implied keys for code69 Counting implied keys for code125 . . . Counting implied keys for code2000 Opening : /onneso3a/rdb/lib/approved/618label.l header number keys = 217 tree number keys = 217 Opening : /onneso3a/rdb/lib/approved/618assem.l header number keys = 110 tree number keys = 110 Opening : /onneso3a/rdb/lib/approved/618assem.l.t header number keys = 110 tree number keys = 110 Opening : /onneso3a/rdb/lib/approved/618gcom.l header number keys = 1509 tree number keys = 1509
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Opening : /onneso3a/rdb/lib/approved/618gcom.l.t header number keys = 1509 tree number keys = 1509 Opening : /onneso3a/rdb/lib/approved/618pcdim.l header number keys = 4820 tree number keys = 4820 Opening : /onneso3a/rdb/lib/approved/618pcdim.l.t header number keys = 4820 tree number keys = 4820 Opening : /onneso3a/rdb/lib/approved/618pcdim.l.r header number keys = 4820 tree number keys = 4820 Total files with errors : 0
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Reference Data Manager Error Messages
A. Error Messages
Appendix A Reference Data Manager Error Messages The PDS 3D products share common message files contained in the win32app\ingr\pdshell\msg directory. pdsmc.msg — command field messages pdsme.msg — error and warning messages pdsmp.msg — prompts and messages pdsms.msg — status messages.
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Codelists
Appendix B Codelists This section details the codelists used in PDS. The data contained within this appendix is for informational purposes only and may not exactly match the codelists delivered with the product. Description Object Types for Orthographic Drawings Approval Status Structural Approval Status HVAC Approval Status Hold Status Equipment Divisions/Form Code
Page 572 573 573 573 574 574
CL125 CL130 CL145 CL148 CL160 CL180 CL190
Fluid Code/Connector Type Construction Status Materials Grade Piping Materials Class Description Responsibility Fabrication Category Coating Requirements
574 578 578 603 611 611 611
CL200 CL210 CL220 CL230
Heat Tracing Requirements Heat Tracing Media Insulation Purpose Cleaning Requirements
612 612 613 613
CL330 CL332 CL340 CL360 CL365 CL366 CL380 CL390
CP Type/Termination/Preparation Schedule/Thickness Override Safety Classification Stress Analysis Requirements Reporting Requirements Requirement to Reconstruct Piping Component Type Action
613 616 618 618 618 618 618 625
CL400 CL420 CL425 CL430 CL499
Option Piping Component Type/Source Piping/Tubing Type Instrument Component Type/Source Piping Notes
625 631 632 632 632
CL530 CL550 CL570 CL572 CL575
Accessory/Item Type Operator/Actuator Type Design Standard Wall Thickness Equation Geometry Standard
634 634 635 636 636
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B. Codelists
Subject CL31 CL35 CL36 CL37 CL50 CL69
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CL576 CL577 CL578
Table Suffix/End Standard - Green Table Suffix/End Standard - Red Weight Code
647 650 654
CL990 CL999
Types of Piping Commodity Data Forms Standard Note Title
656 656
CL1010 CL1028 CL1056 CL1064 CL1074
Area Units Mass Units Temperature Units Pressure Units Density Units
657 658 658 658 659
CL1100 CL1162
Weld Type Force Units
659 659
CL1201 CL1202 CL1203 CL1204 CL1205 CL1207 CL1208 CL1209
Drawing Scale Drawing Size Interference Manager Approval Status Interference Clash Type Interference Manager Action Interference Manager Approval Method Clash Checking Option Clash Checking Volume Filter Option
659 660 660 660 660 661 661 661
CL1310 CL1312 CL1410 CL1605 CL1610 CL1620 CL1630 CL1710 CL1720 CL1900 CL2000
Report Source Report Type Design Review Type Model Status Force Units for FrameWorks Plus Drawing View Direction Drawing View Composition Status Document Source Document Type Isometric Drawing Type PD_Draw Document Type
661 661 662 662 662 662 662 662 663 665 666
________________ Appendix B:
B.1
General Comments
General Comments Codelist sets in this document define the values for all codelisted attributes used in the PDS Piping Task which are specific to US plant design practices. You can add, delete or revise codelist sets to reflect your own practices, terminology and language. A task user, however, cannot revise a codelist set from a work session. Revisions to a codelist set, can only be made in the General RDB or Standard Note Library.
For PDS users that wish to modify codelist files delivered with the PDS software to reflect their own practices, two approaches are possible: Make the modifications within the range of codelist numbers defined in the codelist library delivered with the PDS software. This has the advantage of resulting in the best organized set of codelisted definitions. The disadvantage is that numbers added by the User may conflict with numbers added in future versions of software. Increase the maximum number of entries allowed for the codelist set and make additions to it in the range of extended numbers. This will minimize possible conflicts assigned numbers but will require compiling of the codelists and of the associated databases. Values enclosed in brackets [ ] in pages that follow represent descriptive information. The values stored in the codelist sets will exclude this bracketed information from the codelist descriptions. The net length of a codelist entry cannot exceed 50 characters. Other considerations may, however, require that a shorter description be made. For example: For the P&ID Task, the total compressed length of a label part can not exceed 36 characters. The formats of specification type reports for the Instrument Task require that applicable codelist descriptions do not exceed 25 characters.
B.2
Comments Specific to Units of Measure Codelist Sets The PDS system of units is derived from the 1980 Edition of API-2564, Manual of Petroleum Measurement Standards, Chapter 15 "Guidelines for the Use of the International System of Units (SI) in the Petroleum and Allied Industries".
569
B. Codelists
In listings that follow, the maximum number of entries that may be expected for a specific codelist set is shown in parenthesis following the name of the codelist set.
________________ Reference Data Manager Reference Guide — April 2002
The tables in this document include the following information. Codelist set
This is the number of the codelist set that identifies a specific quantity. For example, codelist set 1028 includes the units of measure that apply to the quantity "mass".
Codelist no
This is the number that defines a specific unit of measure within a codelist set. For example, codelist number 1 in codelist set 1028 refers to the "lb" units of measure.
Unit type
This code is not explicitly shown in the tables. The unit type equals the number of the codelist set minus 1000. For example, reference to unit type 28 refers to "mass".
Quantity name
Entries in this column define the quantity whose units of measure are being defined.
Unit name:
Several unit names are provided for a given codelist set. Any of these names can be used to define the quantity.
Conversion to destination unit:
Two sets of columns define the conversion of variables expressed in the units shown under the column "Unit Name" to the unit shown under the column "Destination Unit". The following explanations apply:
The column captioned Destination Unit defines the unit to which the unit included under the column Unit Name will be converted using the value shown under the column Factor. The column captioned Factor provides the actual conversion factor to be used for the conversion. For example, in codelist set 1028, to convert a mass measurement in "lb" to "kg", multiply the value in the former units by the conversion factor, 4.535 924 E-01. In some cases, such as temperature, summation may also be required to effect the desired conversion. All conversion factors are taken or derived from API Publication 2564. Groups of three digits are separated by spaces with no commas. For example, 3.048 000 E-01 = 3.048 000 x 10ˆ-1 = 0.3048000. Similarly, 9.290 304 E+02 = 9.290 304 x 10ˆ2 = 929.0304. An asterisk (*) indicates that all following digits are zeros. If a conversion factor happens to end in several zeros but does not have an asterisk, any subsequent digits would not necessarily be zeros. Most of the conversion factors are shown to six or seven significant figures. Those shown to fewer than six significant figures are limited by the precision of the known or determinable value of a physical property, such as the density of distilled water at a reference temperature.
570
________________ Appendix B:
Conversion to first unit in CL:
General Comments
Two sets of columns define the conversion of the units shown under the column Unit Name to the first unit shown in that column. The conversion is done per the equation:
y= A + Bx where, x applies to the value of the variable expressed in the units shown in the column captioned Unit Name.
A is the factor in the column captioned Factor A. B is the factor in the column captioned Factor B. The distinction between upper case and lower case symbols is very important. For example: K= k= M= m= m= N= n=
kelvin kilo= 10ˆ3 mega= 10ˆ6 milli= 10ˆ-3 (when m is used as a prefix) metre (when m is used alone) newton nano= 10ˆ-9
In editing any of the codelist sets for units, do not change the meaning of existing codelist values. In all codelist sets for units, a blank space is provided as the first character in the unit name. The blank space is used to silence the units in the formation of labels. Nomenclature: Symbol bar degC g kg m min Pa t
Name bar degree Celsius gram kilogram metre minute pascal metric ton
Quantity pressure temperature mass mass length time pressure mass
571
B. Codelists
y applies to the value of the variable expressed in the units shown in the first line of the column captioned Unit Name.
________________ Reference Data Manager Reference Guide — April 2002
CL31, Object Types for Orthographic Drawings (40) C31 DF=’WRK_DD_CODLST:CODE0031.ENT’ MAX=999 0031, Object Types for Orthographic Drawings (40) Equipment Category Object Types (100-149) The Range of 100-149 for the equipment category is divided into two parts: 101-110 These entries are reserved by INTERGRAPH and may not be changed by the user. 111-149 Codelist entries in this range may be created, revised, and/or deleted by the user. If modified the user must also revise the contents of the file eqp_object.dwg and labels.xxx (where xxx is the drawing type number defined in CL2000 ) in the project directory. 101 110 120 124 128 130 135 140
= = = = = = = =
Piping
’Equipment ’Equipment ’Equipment ’Equipment ’Equipment ’Equipment ’Equipment ’Equipment
205 207 210 215 220
= = = = =
Group’ Nozzle’ Platform’ Handrail’ Penetration’ Stair’ Ladder’ Davit’
Category Object Types (200-249) ’Piping ’Pipe’ ’Piping ’Piping ’Piping
Segment’ Component’ Specialty’ Support’
Instrument Category Object Types (250-279) 250 252 255 260
= = = =
’Control Valves and Regulators’ ’Relief Devices’ ’Other In-Line Instruments’ ’Off-Line Instruments’
HVAC Category Object Types (359-399) 359 360 361 362 363 364 365 366 367 368 369 370 371
572
= = = = = = = = = = = = =
’HVAC ’HVAC ’HVAC ’HVAC ’HVAC ’HVAC ’HVAC ’HVAC ’HVAC ’HVAC ’HVAC ’HVAC ’HVAC
Coil Data’ Connector Data’ Damper Data’ Diffuser Data’ Duct Data’ DEquipment Data’ Filter Data’ Fitting Data’ Grille Data’ Hood Data’ Humidifier Data’ Register Data’ Terminal Devices’
________________ Appendix B:
General Comments
EERWAY Category Object Types (300-306) 300 301 302 303 304 305 306 307 308
= = = = = = = = =
’EERWAY ’EERWAY ’EERWAY ’EERWAY ’EERWAY ’EERWAY ’EERWAY ’EERWAY ’EERWAY
Connect Point’ OneLine’ Straight’ Fitting’ Space Envelope’ To_Equipment’ To_Support’ Eqp Panel’ Duct Bank’
CL35, Approval Status (10)
CL36, Structural Approval Status (15) NOTE: In editing this codelist set, do not change the meaning of existing codelist values. Some data displays require that only values to the left of the "=" sign be shown; other reports require that only values to the right of the "=" sign be displayed. 0= 1 = 2 = 3 = 4 =
’New’ ’Existing’ ’Future’ ’User 1’ ’User 2’
CL37, HVAC Approval Status (10) NOTE: In editing this codelist set, do not change the meaning of existing codelist values. Some data displays require that only values to the left of the "=" sign be shown; other reports require that only values to the right of the "=" sign be displayed. 1 2 3 4
= = = =
’New’ ’Existing’ ’Dismantle’ ’Future’
573
B. Codelists
NOTE: In editing this codelist set, do not change the meaning of existing codelist values. Some data displays require that only values to the left of the "=" sign be shown; other reports require that only values to the right of the "=" sign be displayed. The following are the requirements in use of the "approval status." 2 reserved for ’approved’ 3 reserved for ’not approved’ 11-20 reserved for ’approved’ 21-30 reserved for ’not approved’ 1 = [Blank] 2 = ’A =Approved’ 3 = ’NA=Not approved’
________________ Reference Data Manager Reference Guide — April 2002
CL50, Hold Status (10) NOTE: In editing this codelist set, do not change the meaning of existing codelist values. Some data displays require that only values to the left of the "=" sign be shown; other reports require that only values to the right of the "=" sign be displayed. Labels always require that only values to the right of the "=" sign be displayed. 1 = ’NH=Not held’ 2 = ’H =Hold’
CL69, Equipment Divisions/Form Code (99) NOTE: In editing this codelist set, do not change the meaning of codelist value "All". Some data displays require that only values to the left of the "=" sign be shown; other data displays require that only values to the right of the "=" sign be displayed. 1 2 3 4 5 6 7 8
= = = = = = = =
’A= ’B= ’C= ’D= ’E= ’F= ’H= ’I=
All’ Vessels’ Heat transfer’ Mechanical’ Civil/Structural’ Piping’ Electrical’ Other’
CL125, Fluid Code/Connector Type (999) NOTE: In editing this codelist set, do not change the meaning of existing codelist values 950-999. 1 = [Blank]
574
11 14 17 20 23 26 29 32 35 40
= = = = = = = = = =
’A’ ’AC’ ’AE’ ’AI’ ’AO’ ’AP’ ’APU’ ’AR’ ’AS’ ’AZ’
[Air] [Combustion air] [Aeration air] [Instrument air] [Operational air] [Plant air] [Purge air] [Regeneration air] [Starting air] [Other air]
71 75 79 83 87 91 100
= = = = = = =
’C’ ’CA’ ’CE’ ’CF’ ’CLP’ ’CPR’ ’CZ’
[Refrigerant] [Ammonia refrigerant] [Ethylene refrigerant] [Freon refrigerant] [LP refrigerant] [Propylene refrigerant] [Other refrigerant]
101 103 105 107
= = = =
’D’ ’DC’ ’DCH’ ’DGR’
[Sewer] [Caustic sewer] [Chemical sewer] [Drain to grade]
________________ Appendix B:
109 111 113 115 117 119 121 123 125 127 128 130
= = = = = = = = = = = =
’DOW’ ’DP’ ’DPH’ ’DS’ ’DSP’ ’DST’ ’DW’ ’DWS’ ’DX’ [Blank] [Blank] ’DZ’
General Comments
[Oily water sewer] [Process sewer] [Heated process sewer] [Sanitary sewer] [Press sanitary sewer] [Storm sewer] [Clean water sewer] [Sour water sewer] [Acid sewer] [Storm, oily water or sanitary sewer] [Storm or oily water sewer] [Other sewer] [Foam]
191 194 197 198 200 203 206 209 212 215 218 221 224 227 230 233 236 239 242 245 250
= = = = = = = = = = = = = = = = = = = = =
’G’ ’GCD’ ’GCL’ ’GCN’ ’GF’ ’GG’ ’GH’ ’GHS’ ’GI’ ’GLP’ ’GM’ ’GN’ ’GNI’ ’GOX’ ’GP’ ’GR’ ’GS’ ’GSO’ ’GSW’ ’GW’ ’GZ’
[Gas] [Carbon dioxide gas] [Chlorine gas] [Chlorination gas] [Fuel gas] [Flue gas] [Hydrogen gas] [Hydrogen sulphide gas] [Inert gas] [LP gas] [Make-up gas] [Natural gas] [Nitrogen gas] [Oxygen gas] [Purge gas] [Reformed gas] [Synthesis gas] [Sour gas] [Sweet gas] [Waste gas [Other gas]
341 346 351 356 370
= = = = =
’K’ ’KG’ ’KF’ ’KD’ ’KZ’
[Solvent] [Glycol] [Furfural] [Dewaxing] [Other solvent]
401 402 405 409 413 417 421 425 429 433 434 440 444 448 452 460
= = = = = = = = = = = = = = = =
’M’ [Blank] ’MAA’ ’MAC’ ’MAW’ ’MC5’ ’MCL’ ’MEO’ ’MHC’ ’MIA’ ’MIB’ ’MLA’ ’MMA’ ’MS’ ’MSL’ ’MZ’
[Chemical] [Chemical injection] [Anhydrous ammonia] [Aluminum chloride] [Aqueous ammonia] [0-50% caustic solution] [Dry chlorine] [Ethylene oxide] [Hydrogen chloride] [Inhibitor A] [Inhibitor B] [Lube oil additives] [Methyl alcohol] [Sulfur] [Liquid sulfur] [Other chemical]
B. Codelists
161 = ’F’
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576
491 493 495 497 499 500 503 505 507 509 511 513 515 520
= = = = = = = = = = = = = =
’O’ ’OD’ ’ODS’ ’OF’ ’OFR’ ’OFS’ ’OH’ ’OL’ ’OLS’ ’OS’ ’OSO’ ’OSW’ ’OWS’ ’OZ’
[Oil] [Diesel fuel oil] [Dry slop oil] [Flushing oil] [Fuel oil return] [Fuel oil supply] [Hydraulic oil] [Lube] [Lube and seal oil] [Seal oil] [Sour oil] [Sweet oil] [Wet slop oil] [Other oil]
521 522 524 527 530 533 536 539 542 545 550
= = = = = = = = = = =
’P’ [Blank] ’PA’ ’PAS’ ’PB’ ’PH’ ’PHH’ ’PHW’ ’PL’ ’PS’ ’PZ’
[Process] [Special process] [Process w/ rich/lean amine] [Process w/ severe amine] [Process w/ benzene] [Process w/ H2] [Process w/ H2 & H2S] [Process w/ aqueous H2S] [Low temperature process] [Process w/ S] [Other process]
581 = ’RA’ 591 = ’RF’ 610 = ’RZ’
[Relief to atmosphere] [Relief to flare] [Other relief]
611 613 615 617 621 623 625 627 629 631 633 635 640
= = = = = = = = = = = = =
’S’ [Blank] [Blank] [Blank] ’SE’ ’SH’ ’SL’ ’SM’ ’SN’ ’SS’ ’SV’ ’SX’ ’SZ’
[Steam] [Boiler feed water or steam] [Boiler feed water, steam or condensate] [Steam or condensate] [Extr press CL1500 steam] [High press CL900 steam] [Low press CL150 steam] [Med press CL600 steam] [Nor press CL300 steam] [Superheated steam] [Vacuum steam] [Exhaust CL125 steam] [Other steam]
641 643 645 647 649 651 653 655 660
= = = = = = = = =
’SC’ ’SCA’ ’SCE’ ’SCH’ ’SCL’ ’SCM’ ’SCN’ ’SCV’ ’SCZ’
[Steam condensate] [Atmospheric CL125 steam condensate] [Extr press CL1500 steam condensate] [High press CL900 steam condensate] [Low press CL150 steam condensate] [Med press CL600 steam condensate] [Nor press CL300 steam condensate] [Vacuum steam condensate] [Other steam condensate]
721 731 741 750
= = = =
’V’ ’VA’ ’VF’ ’VZ’
[Vent] [Vent to atmosphere] [Vent to flare] [Other vent]
________________ Appendix B:
General Comments
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
’W’ ’WB’ ’WBA’ ’WBB’ ’WC’ [Blank] ’WCH’ ’WCL’ ’WCF’ ’WCR’ ’WCS’ ’WPT’ [Blank] ’WDM’ ’WFA’ ’WFI’ ’WFU’ ’WG’ ’WGL’ ’WGR’ ’WGS’ ’WH’ ’WHR’ ’WHS’ ’WI’ ’WIR’ ’WIS’ ’WK’ ’WN’ ’WP’ ’WR’ ’WS’ ’WSR’ ’WSS’ ’WT’ ’WU’ ’WW’ ’WZ’
[Water] [Boiler feed water] [Ballast water] [Water boiler blowdown] [Cooling water] [Cooling or utility water] [Chlorinated water] [Chlorine in water] [Clarified water] [Cooling water return] [Cooling water supply] [Potable water] [Potable water or instrument air] [Demineralized water] [Aboveground fire water] [Filtered water] [Underground fire water] [Glycol water] [Gland water] [Glycol water return] [Glycol water supply] [Hot water] [Hot water return] [Hot water supply] [Chilled water] [Chilled water return] [Chilled water supply] [Treated water] [Brine water] [Process water] [Raw water] [Sea water] [Sea water return] [Sea water supply] [Test water] [Utility water] [Waste water] [Other water]
831 835 839 843 847 851 853 860
= = = = = = = =
’X’ ’XH’ ’XN’ ’XSD’ ’XS3’ ’XS8’ ’XS9’ ’XZ’
[Acid] [Hydrofluoric acid] [Nitric acid] [Dilute sulfuric acid] [30% sulfuric acid] [75-80% sulfuric acid] [93-97% sulfuric acid] [Other acid]
861 865 869 873 877 881 890
= = = = = = =
’Y’ ’YA’ ’YG’ ’YH’ ’YL’ ’YW’ ’YZ’
[Catalyst] [Catalyst addition] [General catalyst] [Catalyst w/ H2] [Catalyst lift lines] [Catalyst withdrawal lines] [Other catalyst]
950 951 953 955 956 960 961
= = = = = = =
’ODPC’ ’OUPC’ ’UODPC’ ’ODIC’ ’OUIC’ ’OVPC’ ’OSPC’
[Off-dwg piping connectors] [Off-unit piping connectors] [Utility off-dwg piping connectors] [Off-dwg instr connectors] [Off-unit instr connectors] [Off-vol piping connectors] [Off-site piping connectors]
B. Codelists
751 753 755 757 759 761 763 764 765 767 768 771 772 773 775 777 779 781 783 785 786 789 791 792 795 797 798 801 803 805 807 809 811 812 815 817 819 830
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999 = ’TERM’
[Terminator piping connector]
CL130, Construction Status (15) NOTE: In editing this codelist set, do not change the meaning of existing codelist values 2, 3 and 8. In addition, codelist values 4-7 must imply an "existing" construction status. Codelist values 9-15 inherit the color symbology from the construction status of the item previously placed in the model. 1 2 3 4 5 6 7 8
= = = = = = = =
[Blank] ’New’ ’Existing’ ’Revamp’ ’Relocate’ ’Temporary’ ’Dismantle’ ’Future’
CL145, Materials Grade (4500) NOTE: Some data displays require that only values to the left of the "=" sign be shown; other reports require that only values to the right of the "=" sign be displayed. 1 = [Blank] Irons, 10 = 12 = 15 = 16 = 17 = 18 = 19 = 20 = 21 = 22 = 23 = 25 = 30 = 31 = 32 = 35 = 40 = 41 = 42 = 43 = 44 = 45 = 46 = 47 = 48 = 55 = 60 = 62 = 70 = 75 = 76 =
578
10-99 ’A47-32510’ ’A47-35018’ ’A48-20’ ’A48-25’ ’A48-30’ ’A48-35’ ’A48-40’ ’A48-45’ ’A48-50’ ’A48-55’ ’A48-60’ ’A74’ ’A126-A’ ’A126-B’ ’A126-C’ ’A197’ ’A278-20’ ’A278-25’ ’A278-30’ ’A278-35’ ’A278-40’ ’A278-50’ ’A278-60’ ’A278-70’ ’A278-80’ ’A338’ ’A395-Ductile’ ’A395-Ferritic Ductile’ ’A571’ ’AWWA-C110-Ductile’ ’AWWA-C151-Ductile’
________________ Appendix B:
Steels, 100-499 ’API-5L-A’ ’API-5L-A25’ ’API-5L-B’ ’API-5L-X42’ ’API-5L-X46’ ’API-5L-X52’ ’API-5L-X65’ ’A36’ ’A53-A’ ’A53-B’ ’A53-Type F’ ’A105’ ’A106-A’ ’A106-B’ ’A106-C’ ’A120’ ’A134-A36’ ’A134-A283-A’ ’A134-A283-B’ ’A134-A283-C’ ’A134-A283-D’ ’A134-A285-A’ ’A134-A285-B’ ’A134-A285-C’ ’A134-A570-30’ ’A134-A570-33’ ’A134-A570-36’ ’A134-A570-40’ ’A134-A570-45’ ’A134-A570-50’ ’A135-A’ ’A135-B’ ’A139-A’ ’A139-B’ ’A139-C’ ’A139-D’ ’A139-E’ ’A179’ ’A181-CL60’ ’A181-CL70’ ’A211-A570-30’ ’A211-A570-33’ ’A211-A570-36’ ’A211-A570-40’ ’A211-A570-45’ ’A211-A570-50’ ’A216-WCA’ ’A216-WCB’ ’A216-WCC’ ’A234-WPB’ ’A234-WPC’ ’A283-A’ ’A283-B’ ’A283-C’ ’A283-D’ ’A285-A’ ’A285-B’ ’A285-C’ ’A333-1’ ’A333-6’ ’A334-1’
B. Codelists
Carbon 110 = 114 = 116 = 118 = 120 = 122 = 124 = 135 = 140 = 142 = 144 = 150 = 160 = 162 = 164 = 170 = 180 = 182 = 183 = 184 = 185 = 186 = 187 = 188 = 190 = 191 = 192 = 193 = 194 = 195 = 200 = 202 = 210 = 212 = 214 = 216 = 218 = 220 = 230 = 234 = 240 = 241 = 242 = 243 = 244 = 245 = 250 = 252 = 254 = 264 = 266 = 270 = 272 = 274 = 276 = 280 = 282 = 284 = 290 = 293 = 295 =
General Comments
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298 300 302 305 310 312 320 321 322 323 325 327 334 340 342 344 346 350 352 354 356 360 361 362 363 364 365 370 372 375 380 390 392 394 396 398 400 402 404 406 408 410 420 422 424 426 428 430 432 434 436 438 440 442 444 446 448 460 464
580
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
’A334-6’ ’A350-LF1’ ’A350-LF2’ ’A352-LCB’ ’A369-FPA’ ’A369-FPB’ ’A381-Y35’ ’A381-Y42’ ’A381-Y46’ ’A381-Y48’ ’A381-Y50’ ’A381-Y52’ ’A420-WPL6’ ’A515-55’ ’A515-60’ ’A515-65’ ’A515-70’ ’A516-55’ ’A516-60’ ’A516-65’ ’A516-70’ ’A520-30’ ’A520-33’ ’A520-36’ ’A520-40’ ’A520-45’ ’A520-50’ ’A524-I’ ’A524-II’ ’A537-CL1’ ’A587’ ’A671-CA55’ ’A671-CB60’ ’A671-CB65’ ’A671-CB70’ ’A671-CC60’ ’A671-CC65’ ’A671-CC70’ ’A671-CD70’ ’A671-CE55’ ’A671-CE60’ ’A671-CK75’ ’A672-A45’ ’A672-A50’ ’A672-A55’ ’A672-B55’ ’A672-B60’ ’A672-B65’ ’A672-B70’ ’A672-C55’ ’A672-C60’ ’A672-C65’ ’A672-C70’ ’A672-D70’ ’A672-E55’ ’A672-E60’ ’A672-N75’ ’A691-CMS75’ ’A691-CMSH70’
________________ Appendix B:
General Comments
B. Codelists
Low and Intermediate Alloy Steels, 500-899 510 = ’A182-F1’ 512 = ’A182-F2’ 514 = ’A182-F5’ 516 = ’A182-F5a’ 518 = ’A182-F6a Cl.1’ 519 = ’A182-F6a Cl.2’ 520 = ’A182-F6a Cl.3’ 521 = ’A182-F6a Cl.4’ 523 = ’A182-F6b’ 524 = ’A182-F7’ 526 = ’A182-F9’ 528 = ’A182-F11’ 530 = ’A182-F12’ 532 = ’A182-F21’ 534 = ’A182-F22’ 536 = ’A182-F22a’ 540 = ’A202-A’ 542 = ’A202-B’ 550 = ’A203-A’ 552 = ’A203-B’ 554 = ’A203-D’ 556 = ’A203-E’ 560 = ’A204-A’ 562 = ’A204-B’ 564 = ’A204-C’ 576 = ’A217-C5’ 578 = ’A217-C12’ 580 = ’A217-CA15’ 582 = ’A217-WC1’ 584 = ’A217-WC4’ 586 = ’A217-WC5’ 588 = ’A217-WC6’ 590 = ’A217-WC9’ 600 = ’A225-A’ 602 = ’A225-B’ 610 = ’A234-WP1’ 614 = ’A234-WP5’ 616 = ’A234-WP7’ 618 = ’A234-WP9’ 620 = ’A234-WP11’ 622 = ’A234-WP12’ 624 = ’A234-WP22’ 630 = ’A302-A’ 632 = ’A302-B’ 634 = ’A302-C’ 636 = ’A302-D’ 644 = ’A333-3’ 646 = ’A333-4’ 648 = ’A333-7’ 650 = ’A333-8’ 652 = ’A333-9’ 664 = ’A334-3’ 666 = ’A334-7’ 668 = ’A334-8’ 670 = ’A334-9’ 680 = ’A335-P1’ 682 = ’A335-P2’ 684 = ’A335-P5’ 686 = ’A335-P5b’ 687 = ’A335-P5c’ 690 = ’A335-P7’
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692 694 696 698 700 702 710 720 722 724 730 740 742 744 746 748 750 752 754 756 758 760 761 770 771 774 775 778 779 780 781 782 783 784 785 786 787 794 798 800 802 804 806 808 810 812 814 816 817 820 822 830 832 835 840 842 850 852 854 860 862 864
582
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
’A335-P9’ ’A335-P11’ ’A335-P12’ ’A335-P15’ ’A335-P21’ ’A335-P22’ ’A350-LF3’ ’A352-LC1’ ’A352-LC2’ ’A352-LC3’ ’A353’ ’A369-FP1’ ’A369-FP2’ ’A369-FP3b’ ’A369-FP5’ ’A369-FP7’ ’A369-FP9’ ’A369-FP11’ ’A369-FP12’ ’A369-FP21’ ’A369-FP22’ ’A385-7 Cl.1’ ’A385-7 Cl.2’ ’A387-2 Cl.1’ ’A387-2 Cl.2’ ’A387-5 Cl.1’ ’A387-5 Cl.2’ ’A387-9 Cl.1’ ’A387-9 Cl.2’ ’A387-11 Cl.1’ ’A387-11 Cl.2’ ’A387-12 Cl.1’ ’A387-12 Cl.2’ ’A387-21 Cl.1’ ’A387-21 Cl.2’ ’A387-22 Cl.1’ ’A387-22 Cl.2’ ’A420-WPL3’ ’A420-WPL8’ ’A426-CP1’ ’A426-CP2’ ’A426-CP5’ ’A426-CP5b’ ’A426-CP7’ ’A426-CP9’ ’A426-CP11’ ’A426-CP12’ ’A426-CP15’ ’A426-CPCA15’ ’A426-CP21’ ’A426-CP22’ ’A553-Type I’ ’A553-Type II’ ’A645’ ’A671-CF70’ ’A671-CF71’ ’A672-L65’ ’A672-L70’ ’A672-L75’ ’A691-CM65’ ’A691-CM70’ ’A691-CM75’
________________ Appendix B:
866 868 870 872 874 876 878
= = = = = = =
General Comments
’A691-0.5Cr’ ’A691-1Cr’ ’A691-1.25Cr’ ’A691-2.25Cr’ ’A691-3Cr’ ’A691-5Cr’ ’A691-9Cr’
B. Codelists
Stainless Steels, 900-1324 920 = ’A167-301’ 922 = ’A167-302’ 923 = ’A167-302B’ 926 = ’A167-304’ 927 = ’A167-304L’ 930 = ’A167-305’ 932 = ’A167-308’ 934 = ’A167-309’ 935 = ’A167-309S’ 938 = ’A167-310’ 939 = ’A167-310S’ 942 = ’A167-316’ 943 = ’A167-316L’ 946 = ’A167-317’ 947 = ’A167-317L’ 950 = ’A167-321’ 952 = ’A167-347’ 954 = ’A167-348’ 960 = ’A182-F10’ 964 = ’A182-F304’ 965 = ’A182-F304H’ 966 = ’A182-F304L’ 968 = ’A182-F310’ 970 = ’A182-F316’ 971 = ’A182-F316H’ 972 = ’A182-F316L’ 974 = ’A182-F321’ 975 = ’A182-F321H’ 978 = ’A182-F347’ 979 = ’A182-F347H’ 982 = ’A182-F348’ 983 = ’A182-F348H’ 990 = ’A240-X8M’ 992 = ’A240-302’ 994 = ’A240-304’ 995 = ’A240-304L’ 996 = ’A240-304H’ 998 = ’A240-305’ 1000 = ’A240-309S’ 1004 = ’A240-310S’ 1006 = ’A240-316’ 1007 = ’A240-316L’ 1010 = ’A240-317’ 1011 = ’A240-317L’ 1014 = ’A240-321’ 1016 = ’A240-347’ 1018 = ’A240-348’ 1020 = ’A240-405’ 1022 = ’A240-410’ 1023 = ’A240-410S’ 1026 = ’A240-429’ 1028 = ’A240-430’ 1040 = ’A268-TP329’
583
________________ Reference Data Manager Reference Guide — April 2002
1044 1046 1048 1050 1051 1054 1056 1060 1061 1064 1065 1066 1070 1071 1072 1074 1076 1078 1079 1080 1082 1084 1085 1088 1089 1092 1095 1100 1102 1104 1106 1108 1110 1112 1113 1114 1116 1118 1120 1122 1124 1126 1128 1130 1140 1141 1144 1146 1148 1149 1152 1154 1156 1160 1162 1163 1166 1167 1170 1171 1174 1175
584
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
’A268-TP405’ ’A268-TP409’ ’A268-TP410’ ’A268-TP430’ ’A268-TP430Ti’ ’A268-TP443’ ’A268-TP446’ ’A269-TP304’ ’A269-TP304L’ ’A269-TP316’ ’A269-TP316L’ ’A270-TP316L’ ’A312-TP304’ ’A312-TP304H’ ’A312-TP304L ’A312-TP309’ ’A312-TP310’ ’A312-TP316’ ’A312-TP316H’ ’A312-TP316L’ ’A312-TP317’ ’A312-TP321’ ’A312-TP321H’ ’A312-TP347’ ’A312-TP347H’ ’A312-TP348’ ’A351-CA15’ ’A351-CF3’ ’A351-CF3A’ ’A351-CF3M’ ’A351-CF8’ ’A351-CF8A’ ’A351-CF8C’ ’A351-CF8M’ ’A351-CF10’ ’A351-CF10MC’ ’A351-CN7M’ ’A351-CH8’ ’A351-CH10’ ’A351-CH20’ ’A351-CK20’ ’A351-HK30’ ’A351-HK40’ ’A351-HT30’ ’A358-304’ ’A358-304L’ ’A358-309S’ ’A358-310S’ ’A358-316’ ’A358-316L’ ’A358-321’ ’A358-347’ ’A358-348’ ’A376-16-8-2H’ ’A376-TP304’ ’A376-TP304H’ ’A376-TP316’ ’A376-TP316H’ ’A376-TP321’ ’A376-TP321H’ ’A376-TP347’ ’A376-TP347H’
________________ Appendix B:
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
Copper 1325 = 1330 = 1331 = 1334 = 1335 = 1338 = 1339 = 1342 = 1346 = 1350 = 1354 = 1356 = 1358 = 1362 = 1363 = 1364 = 1368 =
’A376-TP348’ ’A376-TP348H’ ’A403-WP304’ ’A403-WP304H’ ’A403-WP304L’ ’A403-WP309’ ’A403-WP310’ ’A403-WP316’ ’A403-WP316H’ ’A403-WP316L’ ’A403-WP317’ ’A403-WP321’ ’A403-WP321H’ ’A403-WP347’ ’A403-WP347H’ ’A403-WP348’ ’A409-TP304’ ’A409-TP309’ ’A409-TP310’ ’A409-TP316’ ’A409-TP317’ ’A409-TP321’ ’A409-TP347’ ’A409-TP348’ ’A430-FP304’ ’A430-FP304H’ ’A430-FP316’ ’A430-FP316H’ ’A430-FP321’ ’A430-FP321H’ ’A430-FP347’ ’A430-FP347H’ ’A451-CHP10’ ’A451-CHP20’ ’A451-CPF8C’ ’A451-CPF8M’ ’A451-CPF10MC’ ’A451-CPH8’ ’A451-CPK20’ ’A452-TP304H’ ’A452-TP316H’ ’A452-TP347H’ ’ASME SA479-316L’
B. Codelists
1178 1179 1190 1191 1192 1194 1196 1198 1199 1200 1202 1204 1205 1206 1207 1210 1220 1222 1224 1226 1228 1230 1232 1234 1240 1241 1244 1245 1248 1249 1252 1253 1260 1262 1264 1266 1268 1270 1272 1280 1282 1284 1300
General Comments
and Copper Alloys, 1325-1549 ’AISI-CDA Alloy 377’ ’B42 Cl.C10200, drwn, NPD 0.0625-2’ ’B42 Cl.C10200, drwn, NPD 2.5-12’ ’B42 Cl.C12000, drwn, NPD 0.0625-2’ ’B42 Cl.C12000, drwn, NPD 2.5-12’ ’B42 Cl.C12200, drwn, NPD 0.0625-2’ ’B42 Cl.C12200, drwn, NPD 2.5-12’ ’B43 Cl.C23000, annld’ ’B61 Cl.C92200’ ’B62 Cl.C83600’ ’B68 Cl.C10200, annld’ ’B68 Cl.C12000, annld’ ’B68 Cl.C12200, annld’ ’B75 Cl.C10200, annld’ ’B75 Cl.C10200, hrd drwn’ ’B75 Cl.C10200, light drwn’ ’B75 Cl.C12000, annld’
585
________________ Reference Data Manager Reference Guide — April 2002
1369 1370 1374 1375 1376 1380 1381 1382 1386 1387 1392 1393 1398 1399 1404 1408 1410 1412 1414 1416 1418 1422 1430 1432 1434 1436 1438 1440 1442 1450 1452 1456 1458 1462 1463 1466 1467 1472 1474 1476 1478 1480 1482 1484 1486 1488 1490 1492 1494 1496 1498 1500 1502
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
Nickel 1560 = 1561 = 1564 = 1565 = 1568 = 1572 = 1573 =
586
’B75 Cl.C12000, hrd drwn’ ’B75 Cl.C12000, light drwn’ ’B75 Cl.C12200, annld’ ’B75 Cl.C12200, hrd drwn’ ’B75 Cl.C12200, light drwn’ ’B75 Cl.C14200, annld’ ’B75 Cl.C14200, hrd drwn’ ’B75 Cl.C14200, light drwn’ ’B88 Cl.C10200, annld’ ’B88 Cl.C10200, drwn’ ’B88 Cl.C12000, annld’ ’B88 Cl.C12000, drwn’ ’B88 Cl.C12200, annld’ ’B88 Cl.C12200, drwn’ ’B96 Cl.C65500, annld’ ’B152 Cl.C10200, annld’ ’B152 Cl.C10400, annld’ ’B152 Cl.C10500, annld’ ’B152 Cl.C10700, annld’ ’B152 Cl.C12200, annld’ ’B152 Cl.C12300, annld’ ’B169 Cl.C61400, soft’ ’B283 Cl.C11000’ ’B283 Cl.C37700’ ’B283 Cl.C46400’ ’B283 Cl.C48500’ ’B283 Cl.C63900’ ’B283 Cl.C65500’ ’B283 Cl.C67500’ ’B402 Cl.C70600, annld’ ’B402 Cl.C71500, annld’ ’B466 Cl.C70600, annld’ ’B466 Cl.C71500, annld’ ’B467 Cl.C70600, annld, 4.5in OD’ ’B467 Cl.C71500, annld, 4.5in OD’ ’B584 Cl.C86200’ ’B584 Cl.C86300’ ’B584 Cl.C86400’ ’B584 Cl.C86500’ ’B584 Cl.C86700’ ’B584 Cl.C90300’ ’B584 Cl.C90500’ ’B584 Cl.C92200’ ’B584 Cl.C92300’ ’B584 Cl.C95200’ ’B584 Cl.C95300’ ’B584 Cl.C95500’ ’B584 Cl.C95600’ ’B584 Cl.C97300’ ’B584 Cl.C97600’ ’B584 Cl.C97800’ and Nickel Alloys 1550-1774 ’B127-400 (N04400) hot rolled plt annld’ ’B127-400 (N04400) hot rolled plt AR’ ’B160-200 (N02200) annld’ ’B160-200 (N02200) hot fin’ ’B160-201 annld’ ’B161-200 (N02200) annld, 5in OD’
________________ Appendix B:
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
’B161-200 (N02200) stress rlvd’ ’B161-201 (N02201) annld, 5in OD’ ’B161-201 (N02201) stress rlvd’ ’B162-200 (N02200) hot rolled plt annld’ ’B162-201 (N02201) hot rolled plt annld’ ’B162-201 (N02201) hot rolled plt AR’ ’B164-400 (N04400) annld forged’ ’B164-400 (N04400) hot fin’ ’B165-400 (N04400) annld, 5in OD’ ’B165-400 (N04400) stress rlvd’ ’B166-600 (N06600) annld’ ’B166-600 (N06600) hot fin’ ’B167-600 (N06600) cold drwn annld, 5in OD’ ’B167-600 (N06600) hot fin/hot fin annld, 5in OD’ ’B168-600 (N06600) hot rolled plt annld’ ’B168-600 (N06600) hot rolled plt AR’ ’B333-B (N10001) sln annld plt’ ’B333-B (N10001) sln annld sheet’ ’B333-B-2 (N10665) sln annld’ ’B335-B-2 (N10665) sln annld’ ’B366-WPHB (N10001)’ ’B366-WPHX (N06002)’ ’B366-WPN (N02200)’ ’B366-WPNC (N04400)’ ’B366-WPNC1 (N06600)’ ’B366-WPNL (N02201)’ ’B366-WPNLWX’ ’B366-WPNWX’ ’B407-800 (N08800) cold drwn annld’ ’B407-800 (N08800) hot fin/hot fin annld’ ’B407-800H (N08810) cold drwn sln annld/hot fin’ ’B443-625 (N06625) annld’ ’B444-625 (N06625) annld’ ’B446-625 (N06625) annld’ ’B464-20Cb (N08020) annld’ ’A494-CW-12M-1’ ’A494-CW-12M-2’ ’A494-CY-40’ ’B574-C-4 (N06455) sln annld’ ’B574-C-276 (N10276) sln annld’ ’B575-C-4 (N06455) sln annld’ ’B575-C-276 (N10276) sln annld’ ’B581-G (N06007) sln annld’ ’B582-G (N06007) sln annld’ ’B612-200 (N02200) hot rolled plt AR’ ’B619-20-Mod (N08320) sln annld’ ’B619-B (N10001) sln annld’ ’B619-B-2 (N10665) sln annld’ ’B619-C-4 (N06455) sln annld’ ’B619-C-276 (N10276) sln annld’ ’B619-G1 (N06007) sln annld’ ’B619-X (N06002) sln annld’ ’B620-20-Mod (N08320) sln annld’ ’B621-20-Mod (N08320) sln annld’ ’B622-B (N10001) sln annld’ ’B622-B-2 (N10655) sln annld’ ’B622-C-4 (N06455) sln annld’ ’B622-C-276 (N10276) sln annld’
587
B. Codelists
1574 1576 1577 1578 1582 1586 1587 1590 1591 1594 1595 1596 1600 1601 1604 1605 1606 1607 1610 1611 1614 1615 1616 1620 1624 1626 1628 1630 1632 1634 1636 1638 1642 1643 1646 1648 1650 1652 1654 1656 1658 1660 1664 1666 1670 1672 1676 1680 1684 1688 1700 1702 1704 1706 1708 1710 1714 1718 1722 1724 1726 1728
General Comments
________________ Reference Data Manager Reference Guide — April 2002
1730 = ’B622-G (N06007) sln annld’ 1732 = ’B622-X (N06002) sln annld’ Aluminum Alloys 1775-2299 1780 = ’B26-356.0 temper T6’ 1782 = ’B26-356.0 temper T71’ 1784 = ’B26-443.0 temper F’ 1790 = ’B209-1060 temper 0’ 1792 = ’B209-1060 temper H12’ 1794 = ’B209-1060 temper H14’ 1796 = ’B209-1060 temper H112’ 1798 = ’B209-1100 temper 0’ 1800 = ’B209-1100 temper H12’ 1802 = ’B209-1100 temper H14’ 1804 = ’B209-1100 temper H112’ 1806 = ’B209-3003 temper 0’ 1808 = ’B209-3003 temper H12’ 1810 = ’B209-3003 temper H14’ 1812 = ’B209-3003 temper H112’ 1814 = ’B209-3004 temper 0’ 1816 = ’B209-3004 temper H32’ 1818 = ’B209-3004 temper H34’ 1820 = ’B209-3004 temper H112’ 1822 = ’B209-5050 temper 0’ 1824 = ’B209-5050 temper H32’ 1826 = ’B209-5050 temper H34’ 1828 = ’B209-5050 temper H112’ 1830 = ’B209-5052 temper 0’ 1832 = ’B209-5052 temper H32’ 1834 = ’B209-5052 temper H34’ 1836 = ’B209-5052 temper H112’ 1838 = ’B209-5652 temper 0’ 1840 = ’B209-5652 temper H32’ 1842 = ’B209-5652 temper H34’ 1844 = ’B209-5652 temper H112’ 1846 = ’B209-5083 temper 0’ 1848 = ’B209-5083 temper H321’ 1850 = ’B209-5086 temper 0’ 1852 = ’B209-5086 temper H32’ 1854 = ’B209-5086 temper H34’ 1856 = ’B209-5086 temper H112’ 1858 = ’B209-5154 temper 0’ 1860 = ’B209-5154 temper H32’ 1862 = ’B209-5154 temper H34’ 1864 = ’B209-5154 temper H112’ 1866 = ’B209-5254 temper 0’ 1868 = ’B209-5254 temper H32’ 1870 = ’B209-5254 temper H34’ 1872 = ’B209-5254 temper H112’ 1874 = ’B209-5454 temper 0’ 1876 = ’B209-5454 temper H32’ 1878 = ’B209-5454 temper H34’ 1880 = ’B209-5454 temper H112’ 1882 = ’B209-5456 temper 0’ 1884 = ’B209-5456 temper H321’ 1886 = ’B209-6061 temper T4’ 1888 = ’B209-6061 temper T4, wld’ 1890 = ’B209-6061 temper T6’ 1892 = ’B209-6061 temper T6, wld’ 1894 = ’B209-6061 temper T651’ 1896 = ’B209-Alclad 3003 temper 0’ 1898 = ’B209-Alclad 3003 temper H12’
588
________________ Appendix B:
= = = = = = = = = = = =
’B209-Alclad ’B209-Alclad ’B209-Alclad ’B209-Alclad ’B209-Alclad ’B209-Alclad ’B209-Alclad ’B209-Alclad ’B209-Alclad ’B209-Alclad ’B209-Alclad ’B209-Alclad
3003 3003 3004 3004 3004 3004 6061 6061 6061 6061 6061 6061
1930 1932 1934 1936 1938 1940 1942 1944 1946 1948 1950 1952 1954 1956 1958 1960 1962 1964 1966 1968 1970 1972 1974 1976 1978 1980 1982 1984 1986 1988 1990 1992 1994 2010 2012 2014 2016 2018 2020 2022 2024 2026 2028 2030 2032 2034 2036 2038 2040
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
’B210-1060 temper ’B210-1060 temper ’B210-1060 temper ’B210-3003 temper ’B210-3003 temper ’B210-3003 temper ’B210-3003 temper ’B210-5052 temper ’B210-5052 temper ’B210-5052 temper ’B210-5083 temper ’B210-5083 temper ’B210-5086 temper ’B210-5086 temper ’B210-5086 temper ’B210-5086 temper ’B210-5154 temper ’B210-5154 temper ’B210-5456 temper ’B210-5456 temper ’B210-6061 temper ’B210-6061 temper ’B210-6061 temper ’B210-6061 temper ’B210-6063 temper ’B210-6063 temper ’B210-6063 temper ’B210-6063 temper ’B210-6063 temper ’B210-Alclad 3002 ’B210-Alclad 3003 ’B210-Alclad 3003 ’B210-Alclad 3002 ’B221-1060 temper ’B221-1060 temper ’B221-1100 temper ’B221-1100 temper ’B221-3003 temper ’B221-3003 temper ’B221-5052 temper ’B221-5053 temper ’B221-5086 temper ’B221-5154 temper ’B221-5454 temper ’B221-5456 temper ’B221-6061 temper ’B221-6061 temper ’B221-6061 temper ’B221-6061 temper
temper temper temper temper temper temper temper temper temper temper temper temper
H14’ H112’ 0’ H32’ H34’ H112’ T4’ T4, wld’ T6’ T6, wld’ T451’ T651’
0’ H14’ H112’ 0’ H14’ H18’ H112’ 0’ H32’ H34’ 0’ H112’ 0’ H32’ H34’ H112’ 0’ H34’ 0’ H112’ T4’ T4, wld’ T6’ T6, wld’ T4’ T4, wld’ T5, wld’ T6’ T6, wld’ temper 0’ temper H14’ temper H18’ temper H112’ 0’ H112’ 0’ H112’ 0’ H112’ 0’ 0’ 0’ 0’ 0’ 0’ T4’ T4, wld’ T6’ T6, wld’
B. Codelists
1900 1902 1904 1906 1908 1910 1912 1914 1916 1918 1920 1922
General Comments
589
________________ Reference Data Manager Reference Guide — April 2002
2042 2044 2046 2048 2050 2052 2054 2056 2070 2072 2074 2076 2078 2080 2082 2084 2086 2088 2090 2092 2094 2096 2098 2100 2102 2104 2106 2108 2110 2112 2114 2116 2118 2120 2122 2124 2126 2128 2130 2140 2142 2144 2146 2148 2150 2152 2160 2162 2164 2166 2168 2170 2172 2174 2176 2178 2180 2182 2184 2186 2188 2190
590
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
’B221-6063 temper ’B221-6063 temper ’B221-6063 temper ’B221-6063 temper ’B221-6063 temper ’B221-6063 temper ’B221-Alclad 3003 ’B221-Alclad 3003 ’B241-1060 temper ’B241-1060 temper ’B241-1100 temper ’B241-1100 temper ’B241-3003 temper ’B241-3003 temper ’B241-3003 temper ’B241-5052 temper ’B241-5083 temper ’B241-5083 temper ’B241-5086 temper ’B241-5086 temper ’B241-5454 temper ’B241-5454 temper ’B241-5456 temper ’B241-5456 temper ’B241-5462 temper ’B241-5462 temper ’B241-6061 temper ’B241-6061 temper ’B241-6061 temper ’B241-6061 temper ’B241-6061 temper ’B241-6063 temper ’B241-6063 temper ’B241-6063 temper ’B241-6063 temper ’B241-6063 temper ’B241-6063 temper ’B241-Alclad 3003 ’B241-Alclad 3003 ’B247-3003 temper ’B247-3003 temper ’B247-5083 temper ’B247-5083 temper ’B247-5083 temper ’B247-6061 temper ’B247-6061 temper ’B345-1060 temper ’B345-1060 temper ’B345-3003 temper ’B345-3003 temper ’B345-3003 temper ’B345-5083 temper ’B345-5083 temper ’B345-5086 temper ’B345-5086 temper ’B345-6061 temper ’B345-6061 temper ’B345-6061 temper ’B345-6061 temper ’B345-6061 temper ’B345-6063 temper ’B345-6063 temper
T4’ T4, wld’ T5’ T5, wld’ T6’ T6, wld’ temper 0’ temper H112’ 0’ H112’ 0’ H112’ 0’ H18’ H112’ 0’ 0’ H112’ 0’ H112’ 0’ H112’ 0’ H112’ 0’ H112’ T4’ T4, wld’ T6, NPD 1’ T6, wld’ T4’ T4, wld’ T5’ T5, wld’ T6’ T6, wld’ temper 0’ temper H112’ H112’ H112, wld’ 0’ H112’ H112, wld’ T6’ T6, wld’ 0’ H112’ 0’ H18’ H112’ 0’ H112’ 0’ H112’ T4’ T4, wld’ T6, NPD 1’ T6, wld’ T4’ T4, wld’
________________ Appendix B:
= = = = = = = = = = = = = = = = = = = = = = = =
’B345-6063 temper T5’ ’B345-6063 temper T5, wld’ ’B345-6063 temper T6’ ’B345-6063 temper T6, wld’ ’B345-Alclad 3002 temper 0’ ’B345-Alclad 3002 temper H112’ ’B361-WP1060 temper 0’ ’B361-WP1060 temper H112’ ’B361-WP1100 temper 0’ ’B361-WP1100 temper H112’ ’B361-WP3003 temper 0’ ’B361-WP3003 temper H112’ ’B361-WP5154 temper 0’ ’B361-WP5154 temper H112’ ’B361-WP6061 temper T4’ ’B361-WP6061 temper T4, wld’ ’B361-WP6061 temper T6’ ’B361-WP6061 temper T6, wld’ ’B361-WP6063 temper T4’ ’B361-WP6063 temper T4, wld’ ’B361-WP6063 temper T6’ ’B361-WP6063 temper T6, wld’ ’B361-AP Alclad 3003 temper 0’ ’B361-AP Alclad 3003 temper H112’
B. Codelists
2192 2194 2196 2198 2200 2202 2220 2222 2224 2226 2228 2230 2232 2234 2236 2238 2240 2242 2244 2246 2248 2250 2252 2254
General Comments
Other Materials 2300-2999 2310 = ’B337-1’ 2311 = ’B337-2’ 2313 = ’B337-3’ 2317 = ’B337-7’ 2320 = ’C76-CLIII’ 2325 = ’C443’ 2350 = ’C700’ 2400 = ’D1785-PVC1120’ 2402 = ’D2467-PVC1120’ 2440 = ’F439-CPVC4120’ 2442 = ’F441-CPVC4120’ Gaskets 3000-3999] 3051 = ’G51’ [Flat, 3052 = ’G52’ [Flat, 3076 = ’G76’ [Flat, 3077 = ’G77’ [Flat, 3078 = ’G78’ [Flat, 3079 = ’G79’ [Flat, 3101 = ’G101’ [Flat, 3102 = ’G102’ [Flat, 3103 = ’G103’ [Flat, 3111 = ’G111’ [Flat, 3112 = ’G112’ [Flat, 3154 = ’G154’ [Flat, 3171 = ’G171’ [Flat, 3175 = ’G175’ [Flat, 3189 = ’G189’ [Flat, 3195 = ’G195’ [Flat, 3204 = ’G204’ [Flat, 3210 = ’G210’ [Flat, 3231 = ’G231’ [Flat, 3234 = ’G234’ [Flat, 3236 = ’G236’ [Flat,
org fib, nitrile binder] org fib, nitrile binder, full face] graph] graph, full face] graph, 304 tang reinf] graph, 304 wire mesh reinf] asb] asb, full face] asb, wire mesh reinf] blue-asb] blue-asb, full face] Buna-N] Hypalon] Kel-F] neoprene] polyethylene] Teflon] Viton] soft-iron] 304] 321/347
591
________________ Reference Data Manager Reference Guide — April 2002
592
3241 = ’G241’ 3244 = ’G244’ 3246 = ’G246’
[Corr, soft-iron] [Corr, 304] [Corr, 321/347
3251 3256 3261 3262 3266 3267 3271 3272 3276 3277 3281 3282 3286
= = = = = = = = = = = = =
’G251’ ’G256’ ’G261’ ’G262’ ’G266’ ’G267’ ’G271’ ’G272’ ’G276’ ’G277’ ’G281’ ’G282’ ’G286’
[Flat [Flat [Flat [Flat [Flat [Flat [Flat [Flat [Flat [Flat [Flat [Flat [Flat
dbl dbl dbl dbl dbl dbl dbl dbl dbl dbl dbl dbl dbl
jktd, jktd, jktd, jktd, jktd, jktd, jktd, jktd, jktd, jktd, jktd, jktd, jktd,
PTFE-J, asb-F] Teflon-J, blue-asb-F] soft-iron-J, graph-F] soft-iron-J, asb-F] low-C-steel-J, graph-F] low-C-steel-J, asb-F] 304-J, graph-F] 304-J, asb-F] 321/347-J, graph-F] 321/347-J, asb-F] I600-J, graph-F] I600-J, asb-F] I800-J, graph-F
3306 3307 3311 3312 3316 3317 3321 3322 3326 3327 3331
= = = = = = = = = = =
’G306’ ’G307’ ’G311’ ’G312’ ’G316’ ’G317’ ’G321’ ’G322’ ’G326’ ’G327’ ’G331’
[Corr [Corr [Corr [Corr [Corr [Corr [Corr [Corr [Corr [Corr [Corr
dbl dbl dbl dbl dbl dbl dbl dbl dbl dbl dbl
jktd, jktd, jktd, jktd, jktd, jktd, jktd, jktd, jktd, jktd, jktd,
soft-iron-J, graph-F] soft-iron-J, asb-F] low-C-steel-J, graph-F] low-C-steel-J, asb-F] 304-J, graph-F] 304-J, asb-F] 321/347-J, graph-F] 321/347-J, asb-F] I600-J, graph-F] I600-J, asb-F] I800-J, graph-F
3356 = ’G356’ 3361 = ’G361’ 3366 = ’G366’
[Inlaid corr, soft-iron-J, asb-chords] [Inlaid corr, low-C-steel-J, asb-chords] [Inlaid corr, 304-J, asb-chords
3403 3404 3408 3429 3435 3436 3441
= = = = = = =
’G403’ ’G404’ ’G408’ ’G429’ ’G435’ ’G436’ ’G441’
[O [O [O [O [O [O [O
3451 3452 3463 3466 3468 3473
= = = = = =
’G451’ ’G452’ ’G463’ ’G466’ ’G468’ ’G473’
[BX [BX [BX [BX [BX [BX
ring, ring, ring, ring, ring, ring,
soft-iron, 90 BHN max] lo-C, 120 BHN max] 304, 140 BHN max] 316, 140 BHN max] 321, 140 BHN max] I-X-750
3476 3477 3488 3491 3493 3498
= = = = = =
’G476’ ’G477’ ’G488’ ’G491’ ’G493’ ’G498’
[RX [RX [RX [RX [RX [RX
ring, ring, ring, ring, ring, ring,
soft-iron, 90 BHN max] lo-C, 120 BHN max] 304, 140 BHN max] 316, 140 BHN max] 321, 140 BHN max] I-X-750
3551 3552 3556 3563 3566 3568 3569 3573
= = = = = = = =
’G551’ ’G552’ ’G556’ ’G563’ ’G566’ ’G568’ ’G569’ ’G573’
[Octag [Octag [Octag [Octag [Octag [Octag [Octag [Octag
ring, ring, ring, ring, ring, ring, ring,
Buna-N] butyl] EDPM] nitrile] Saran] synthetic rubber] Viton
ring, ring, ring, ring, ring, ring, ring, ring,
soft-iron, 90 BHN max] lo-C, 120 BHN max] 5Cr-0.5Mo, 130 BHN max] 304, 140 BHN max] 316, 140 BHN max] 321, 140 BHN max] 347, 140 BHN max] I-X-750
________________ Appendix B:
ring, ring, ring, ring, ring, ring, ring, ring, ring, ring,
General Comments
= = = = = = = = = =
’G601’ ’G602’ ’G606’ ’G608’ ’G610’ ’G613’ ’G616’ ’G618’ ’G619’ ’G623’
[Oval [Oval [Oval [Oval [Oval [Oval [Oval [Oval [Oval [Oval
soft-iron, 90 BHN max] lo-C, 120 BHN max] 5Cr-0.5Mo, 130 BHN max] 9Cr-1Mo, 130 BHN max] 410, 170 BHN max] 304, 140 BHN max] 316, 140 BHN max] 321, 140 BHN max] 347, 140 BHN max] I-X-750
3651 3653 3655 3657 3659 3661 3663 3665 3669
= = = = = = = = =
’G651’ ’G653’ ’G655’ ’G657’ ’G659’ ’G661’ ’G663’ ’G665’ ’G669’
[Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd,
304-W, 304-W, 304-W, 304-W, 304-W, 304-W, 304-W, 304-W, 304-W,
mica/graph-F, CS-CR] graph-F, CS-CR] asb-F, CS-CR] blue-asb-F, CS-CR] Teflon-F, CS-CR] mica/graph-F, CS-CR, 304-IR] graph-F, CS-CR, 304-IR] asb-F, CS-CR, 304-IR] Teflon-F, CS-CR, 304-IR
3671 3673 3675 3677 3679 3681 3683 3685 3689
= = = = = = = = =
’G671’ ’G673’ ’G675’ ’G677’ ’G679’ ’G681’ ’G683’ ’G685’ ’G689’
[Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd,
316-W, 316-W, 316-W, 316-W, 316-W, 316-W, 316-W, 316-W, 316-W,
mica/graph-F, CS-CR] graph-F, CS-CR] asb-F, CS-CR] crodidolite asb-F, CS-CR] Teflon-F, CS-CR] mica/graph-F, CS-CR, 316-IR] graph-F, CS-CR, 316-IR] asb-F, CS-CR, 316-IR] Teflon-F, CS-CR, 316-IR
3691 3693 3695 3699 3701 3703 3705 3709
= = = = = = = =
’G691’ ’G693’ ’G695’ ’G699’ ’G701’ ’G703’ ’G705’ ’G709’
[Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd,
316L-W, 316L-W, 316L-W, 316L-W, 316L-W, 316L-W, 316L-W, 316L-W,
mica/graph-F, CS-CR] graph-F, CS-CR] asb-F, CS-CR] Teflon-F, CS-CR] mica/gra-F, CS-CR, 316L-IR] graph-F, CS-CR, 316L-IR] asb-F, CS-CR, 316L-IR] Teflon-F, CS-CR, 316L-IR
3711 3713 3715 3719 3721 3723 3725 3729
= = = = = = = =
’G711’ ’G713’ ’G715’ ’G719’ ’G721’ ’G723’ ’G725’ ’G729’
[Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd,
321-W, 321-W, 321-W, 321-W, 321-W, 321-W, 321-W, 321-W,
mica/graph-F, CS-CR] graph-F, CS-CR] asb-F, CS-CR] Teflon-F, CS-CR] mica/graph-F, CS-CR, 321-IR] graph-F, CS-CR, 321-IR] asb-F, CS-CR, 321-IR] Teflon-F, CS-CR, 321-IR
3731 3733 3735 3739 3741 3743 3745 3749
= = = = = = = =
’G731’ ’G733’ ’G735’ ’G739’ ’G741’ ’G743’ ’G745’ ’G749’
[Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd,
347-W, 347-W, 347-W, 347-W, 347-W, 347-W, 347-W, 347-W,
mica/graph-F, CS-CR] graph-F, CS-CR] asb-F, CS-CR] Teflon-F, CS-CR] mica/graph-F, CS-CR, 347-IR] graph-F, CS-CR, 347-IR] asb-F, CS-CR, 347-IR] Teflon-F, CS-CR, 347-IR
3751 3753 3755 3761 3763 3765
= = = = = =
’G751’ ’G753’ ’G755’ ’G761’ ’G763’ ’G765’
[Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd,
I600-W, I600-W, I600-W, I600-W, I600-W, I600-W,
mica/graph-F, CS-CR] graph-F, CS-CR] asb-F, CS-CR] mica/graph-F, I600-O&IR] graph-F, I600-O&IR] asb-F, I600-O&IR
593
B. Codelists
3601 3602 3606 3608 3610 3613 3616 3618 3619 3623
________________ Reference Data Manager Reference Guide — April 2002
3771 3773 3775 3781 3783 3785
= = = = = =
’G771’ ’G773’ ’G775’ ’G781’ ’G783’ ’G785’
[Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd, [Sprl-wnd,
I800-W, I800-W, I800-W, I800-W, I800-W, I800-W,
mica/graph-F, CS-CR] graph-F, CS-CR] asb-F, CS-CR] mica/graph-F, I800-O&IR] graph-F, I800-O&IR] asb-F, I800-O&IR
Bolting 4000-4999] 4011 = ’B11’ [A193-B5, >=1.5" lub, w/A194-3] 4012 = ’B12’ [A193-B5, lub, w/A194-3] 4014 = ’B14’ [A193-B5, >=1.5" lub, w/A194-4] 4015 = ’B15’ [A193-B5, lub, w/A194-4] 4021 = ’B21’ [A193-B6, >=1.5" lub, w/A194-6] 4022 = ’B22’ [A193-B6, lub, w/A194-6] 4031 = ’B31’ [A193-B7, >=1.5" lub, w/A194-2H] 4032 = ’B32’ [A193-B7, lub, w/A194-2H] 4033 = ’B33’ [A193-B7 zinc coated w/A194-2H zinc coated] 4035 = ’B35’ [A193-B7 galv w/A194-2H galv] 4038 = ’B38’ [A193-B7M, >=1.5" lub, w/A194-2H] 4039 = ’B39’ [A193-B7M, lub, w/A194-2H] 4041 = ’B41’ [A193-B8 Cl.1, >=1.5" lub, w/A194-8] 4042 = ’B42’ [A193-B8 Cl.1, lub, w/A194-8] 4044 = ’B44’ [A193-B8C Cl.1, >=1.5" lub, w/A194-8C] 4045 = ’B45’ [A193-B8C Cl.1, lub, w/A194-8C] 4046 = ’B46’ [A193-B8 Cl.1, lub, w/A194-8] 4047 = ’B47’ [A193-B8M Cl.1, >=1.5" lub, w/A194-8M] 4048 = ’B48’ [A193-B8M Cl.1, lub, w/A194-8M 4050 = ’B50’ [A193-B8T Cl.1, >=1.5" lub, w/A194-8T] 4051 = ’B51’ [A193-B8T Cl.1, lub, w/A194-8T] 4061 = ’B61’ [A193-B16, >=1.5" lub, w/A194-3] 4062 = ’B62’ [A193-B16, lub, w/A194-3] 4064 = ’B64’ [A193-B16, >=1.5" lub, w/A194-4] 4065 = ’B65’ [A193-B16, lub, w/A194-4] 4066 = ’B66’ [A193-B16, >=1.5" lub, w/A194-7] 4067 = ’B67’ [A193-B16, lub, w/A194-7] 4068 = ’B68’ [A193-B16, >=1.5" lub, w/A194-8M] 4069 = ’B69’ [A193-B16, lub, w/A194-8M] 4071 = ’B71’ [A307-B w/A563-A] 4074 = ’B74’ [A320-L7, >=1.5" lub, w/A194-4] 4075 = ’B75’ [A320-L7, lub, w/A194-4] 4076 = ’B76’ [A320-B8, >=1.5" lub, w/A194-8] 4077 = ’B77’ [A320-B8, lub, w/A194-8] 4078 = ’B78’ [A320-B8, >=1.5" lub, w/A194-B8] 4079 = ’B79’ [A320-B8, lub, w/A194-B8] 4080 = ’B80’ [A320-B8T Cl.1 >=1.5" lub, w/A194-B8] 4081 = ’B81’ [A320-B8T Cl.1 lub, w/A194-B8] 4082 = ’B82’ [A325 w/A325] 4084 = ’B84’ [A453-660, >=1.5" lub, w/A453-660] 4085 = ’B85’ [A453-660, lub, w/A453-660 4500 = ’Undefined’ Materials for British Standards - Ranges used 6000-7999 carbon steel pipes and tubes BS3601 6000 = ’BS3601:BW320’ 6001 = ’BS3601:ERW320’ 6002 = ’BS3601:ERW360’ 6003 = ’BS3601:ERW430’ 6004 = ’BS3601:S360’ 6005 = ’BS3601:S430’ 6006 = ’BS3601:SAW430’
594
________________ Appendix B:
General Comments
and tubes BS3602 part 1 1987 ’BS3602:PART 1:HFS360:Cat 1’ ’BS3602:PART 1:HFS360:Cat 2’ ’BS3602:PART 1:HFS430:Cat 1’ ’BS3602:PART 1:HFS430:Cat 2’ ’BS3602:PART 1:HFS500Nb:Cat 1’ ’BS3602:PART 1:HFS500Nb:Cat 2’ ’BS3602:PART 1:CFS360:Cat 1’ ’BS3602:PART 1:CFS360:Cat 2’ ’BS3602:PART 1:CFS430:Cat 1’ ’BS3602:PART 1:CFS430:Cat 2’ ’BS3602:PART 1:CFS500Nb:Cat 1’ ’BS3602:PART 1:CFS500Nb:Cat 2’ ’BS3602:PART 1:ERW360:Cat 1’ ’BS3602:PART 1:ERW360:Cat 2’ ’BS3602:PART 1:ERW430:Cat 1’ ’BS3602:PART 1:ERW430:Cat 2’ ’BS3602:PART 1:CEW360:Cat 1’ ’BS3602:PART 1:CEW360:Cat 2’ ’BS3602:PART 1:CEW430:Cat 1’ ’BS3602:PART 1:CEW430:Cat 2’
steel pipes 6030 = 6031 = 6032 = 6033 =
and tubes elevated temp prop BS3602 part 2 ’BS3602:PART 2:SAW410:cat 1’ ’BS3602:PART 2:SAW410:cat 2’ ’BS3602:PART 2:SAW460:cat 1’ ’BS3602:PART 2:SAW460:cat 2’
steel pipes 6040 = 6041 = 6042 = 6043 = 6044 = 6045 = 6046 = 6047 = 6048 = 6049 = 6050 = 6051 = 6052 = 6053 = 6054 = 6055 =
and tubes low temp prop BS3603 1977 ’BS3603 HFS410 LT 50 Cat 1’ ’BS3603 HFS410 LT 50 Cat 2’ ’BS3603 CFS410 LT 50 Cat 1’ ’BS3603 CFS410 LT 50 Cat 2’ ’BS3603 ERW410 LT 50 Cat 1’ ’BS3603 ERW410 LT 50 Cat 2’ ’BS3603 CEW410 LT 50 Cat 1’ ’BS3603 CEW410 LT 50 Cat 2’ ’BS3603 HFS503 LT 100 Cat 1’ ’BS3603 HFS503 LT 100 Cat 2’ ’BS3603 CFS503 LT 100 Cat 1’ ’BS3603 CFS503 LT 100 Cat 2’ ’BS3603 HFS509 LT 196 Cat 1’ ’BS3603 HFS509 LT 196 Cat 2’ ’BS3603 CFS509 LT 196 Cat 1’ ’BS3603 CFS509 LT 196 Cat 2’
steel pipes 6060 = 6061 = 6062 = 6063 = 6064 = 6065 = 6066 = 6067 = 6068 = 6069 = 6070 = 6071 = 6072 = 6073 = 6074 =
and tubes elevated ’BS3604:HFS620-460 ’BS3604:CFS620-460 ’BS3604:ERW620-460 ’BS3604:CEW620-460 ’BS3604:HFS620-460 ’BS3604:CFS620-460 ’BS3604:ERW620-460 ’BS3604:CEW620-460 ’BS3604:HFS620-440 ’BS3604:CFS620-440 ’BS3604:ERW620-440 ’BS3604:CEW620-440 ’BS3604:HFS620-440 ’BS3604:CFS620-440 ’BS3604:ERW620-440
B. Codelists
steel pipes 6010 = 6011 = 6012 = 6013 = 6014 = 6015 = 6016 = 6017 = 6018 = 6019 = 6020 = 6021 = 6022 = 6023 = 6024 = 6025 = 6026 = 6027 = 6028 = 6029 =
temp prop BS3604 Cat 1’ Cat 1’ Cat 1’ Cat 1’ Cat 2’ Cat 2’ Cat 2’ Cat 2’ Cat 1’ Cat 1’ Cat 1’ Cat 1’ Cat 2’ Cat 2’ Cat 2’
595
________________ Reference Data Manager Reference Guide — April 2002
6075 6076 6077 6078 6079 6080 6081 6082 6083 6084 6085 6086 6087 6088 6089 6090 6091 6092 6093 6094 6095 6096 6097 6098 6099 6100 6101 6102 6103 6104 6105 6106 6107
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
’BS3604:CEW620-440 ’BS3604:HFS621 Cat ’BS3604:CFS621 Cat ’BS3604:ERW621 Cat ’BS3604:CEW621 Cat ’BS3604:HFS621 Cat ’BS3604:CFS621 Cat ’BS3604:ERW621 Cat ’BS3604:CEW621 Cat ’BS3604:HFS660 Cat ’BS3604:CFS660 Cat ’BS3604:HFS660 Cat ’BS3604:CFS660 Cat ’BS3604:HFS622 Cat ’BS3604:CFS622 Cat ’BS3604:HFS622 Cat ’BS3604:CFS622 Cat ’BS3604:HFS625 Cat ’BS3604:CFS625 Cat ’BS3604:HFS625 Cat ’BS3604:CFS625 Cat ’BS3604:HFS629-470 ’BS3604:CFS629-470 ’BS3604:HFS629-470 ’BS3604:CFS629-470 ’BS3604:HFS629-590 ’BS3604:CFS629-590 ’BS3604:HFS629-590 ’BS3604:CFS629-590 ’BS3604:HFS762 Cat ’BS3604:CFS762 Cat ’BS3604:HFS762 Cat ’BS3604:CFS762 Cat
Cat 1’ 1’ 1’ 1’ 2’ 2’ 2’ 2’ 1’ 1’ 2’ 2’ 1’ 1’ 2’ 2’ 1’ 1’ 2’ 2’ Cat Cat Cat Cat Cat Cat Cat Cat 1’ 1’ 2’ 2’
2’
1’ 1’ 2’ 2’ 1’ 1’ 2’ 2’
SS pipes and tubes for pressure purposes BS3605:1973 6110 = ’BS3605 304S14’ 6111 = ’BS3605 304S18’ 6112 = ’BS3605 304S59’ 6113 = ’BS3605 304S22’ 6114 = ’BS3605 304S25’ 6115 = ’BS3605 316S14’ 6116 = ’BS3605 316S18’ 6117 = ’BS3605 316S59’ 6118 = ’BS3605 316S22’ 6119 = ’BS3605 316S26’ 6120 = ’BS3605 321S18’ 6121 = ’BS3605 321S59(1010)’ 6122 = ’BS3605 321S59(1105)’ 6123 = ’BS3605 321S22’ 6124 = ’BS3605 347S18’ 6125 = ’BS3605 347S59’ 6126 = ’BS3605 347S17’ plates BS1501 part 1 1980 6200 = ’BS1501-141 360A’ 6201 = ’BS1501-151 360A’ 6202 = ’BS1501-151 400A’ 6203 = ’BS1501-151 430A’ 6204 = ’BS1501-151 360B’ 6205 = ’BS1501-151 400B’ 6206 = ’BS1501-151 430B’ 6207 = ’BS1501-154 360A’
596
________________ Appendix B:
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
’BS1501-154 ’BS1501-154 ’BS1501-161 ’BS1501-161 ’BS1501-161 ’BS1501-161 ’BS1501-161 ’BS1501-161 ’BS1501-164 ’BS1501-164 ’BS1501-164 ’BS1501-164 ’BS1501-164 ’BS1501-164 ’BS1501-164 ’BS1501-164 ’BS1501-164 ’BS1501-164 ’BS1501-164 ’BS1501-164 ’BS1501-223 ’BS1501-223 ’BS1501-223 ’BS1501-223 ’BS1501-223 ’BS1501-223 ’BS1501-223 ’BS1501-223 ’BS1501-223 ’BS1501-223 ’BS1501-223 ’BS1501-223 ’BS1501-223 ’BS1501-223 ’BS1501-223 ’BS1501-223 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224
400A’ 430A’ 360A’ 400A’ 430A’ 360B’ 400B’ 430B’ 360A RT’ 360A LT0’ 360A LT20’ 360B RT’ 360B LT0’ 360B LT20’ 400A RT’ 400A LT0’ 400A LT20’ 400B RT’ 400B LT0’ 400B LT20’ 460A RT’ 460A LT0’ 460A LT15’ 460A LT30’ 460B RT’ 460B LT0’ 460B LT15’ 460B LT30’ 490A RT’ 490A LT0’ 490A LT15’ 490A LT30’ 490B RT’ 490B LT0’ 490B LT15’ 490B LT30’ 400A RT’ 400A LT0’ 400A LT20’ 400A LT30’ 400A LT40’ 400A LT50’ 400B RT’ 400B LT0’ 400B LT20’ 400B LT30’ 400B LT40’ 400B LT50’ 430A RT’ 430A LT0’ 430A LT20’ 430A LT30’ 430A LT40’ 430A LT50’ 430B RT’ 430B LT0’ 430B LT20’ 430B LT30’ 430B LT40’ 430B LT50’ 460A RT’ 460A LT0’
B. Codelists
6208 6209 6210 6211 6212 6213 6214 6215 6216 6217 6218 6219 6220 6221 6222 6223 6224 6225 6226 6227 6228 6229 6230 6231 6232 6233 6234 6235 6236 6237 6238 6239 6240 6241 6242 6243 6244 6245 6246 6247 6248 6249 6250 6251 6252 6253 6254 6255 6256 6257 6258 6259 6260 6261 6262 6263 6264 6265 6266 6267 6268 6269
General Comments
597
________________ Reference Data Manager Reference Guide — April 2002
6270 6271 6272 6273 6274 6275 6276 6277 6278 6279 6280 6281 6282 6283 6284 6285 6286 6287 6288 6289 6290 6291 6292 6293 6294 6295 6296 6297 6298 6299 6300 6301 6302 6303 6304 6305
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-224 ’BS1501-225 ’BS1501-225 ’BS1501-225 ’BS1501-225 ’BS1501-225 ’BS1501-225 ’BS1501-225 ’BS1501-225 ’BS1501-225 ’BS1501-225 ’BS1501-225 ’BS1501-225 ’BS1501-225 ’BS1501-225
460A 460A 460A 460A 460B 460B 460B 460B 460B 460B 490A 490A 490A 490A 490A 490A 490B 490B 490B 490B 490B 490B 460A 460A 460A 460A 460B 460B 460B 460B 490A 490A 490A 490B 490B 490B
LT20’ LT30’ LT40’ LT50’ RT’ LT0’ LT20’ LT30’ LT40’ LT50’ RT’ LT0’ LT20’ LT30’ LT40’ LT50’ RT’ LT0’ LT20’ LT30’ LT40’ LT50’ LT20’ LT30’ LT50’ LT60’ LT20’ LT30’ LT50’ LT60’ LT20’ LT30’ LT50’ LT20’ LT30’ LT50’
steel plates BS1501 part 2 1988 6310 = ’BS1501-243’ 6311 = ’BS1501-271’ 6312 = ’BS1501-281’ 6313 = ’BS1501-620’ 6314 = ’BS1501-621’ 6315 = ’BS1501-622-515’ 6316 = ’BS1501-622-690’ 6317 = ’BS1501-660’ 6318 = ’BS1501-503’ 6319 = ’BS1501-510’ 6320 = ’BS1501-828’ steel plates BS1501 part 3 1973 6321 = ’BS1501-403S17A’ 6322 = ’BS1501-405S17A’ 6323 = ’BS1501-304S12A’ 6324 = ’BS1501-304S15A’ 6325 = ’BS1501-304S49A’ 6326 = ’BS1501-321S12A’ 6327 = ’BS1501-321S49A’ 6328 = ’BS1501-347S17A’ 6329 = ’BS1501-347S49A’ 6330 = ’BS1501-316S12A’ 6331 = ’BS1501-316S16A’
598
________________ Appendix B:
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
’BS1501-316S37A’ ’BS1501-316S49A’ ’BS1501-320S17A’ ’BS1501-310S24A’ ’BS1501-NA15A’ ’BS1501-NA16A’ ’BS1501-460S52A’ ’BS1501-304S62A’ ’BS1501-304S65A’ ’BS1501-304S87A’ ’BS1501-347S67A’ ’BS1501-316S62A’ ’BS1501-316S66A’ ’BS1501-316S82A’ ’BS1501-403S17B’ ’BS1501-405S17B’ ’BS1501-304S12B’ ’BS1501-304S15B’ ’BS1501-304S49B’ ’BS1501-351S12B’ ’BS1501-351S49B’ ’BS1501-347S17B’ ’BS1501-347S49B’ ’BS1501-316S12B’ ’BS1501-316S16B’ ’BS1501-316S37B’ ’BS1501-316S49B’ ’BS1501-320S17B’ ’BS1501-310S24B’ ’BS1501-NA15B’ ’BS1501-NA16B’ ’BS1501-460S52B’ ’BS1501-304S62B’ ’BS1501-304S65B’ ’BS1501-304S87B’ ’BS1501-377S67B’ ’BS1501-316S62B’ ’BS1501-316S66B’ ’BS1501-316S82B’ ’BS1501-460S52A LT70’
B. Codelists
6332 6333 6334 6335 6336 6337 6338 6339 6340 6341 6342 6343 6344 6345 6351 6352 6353 6354 6355 6356 6357 6358 6359 6360 6361 6362 6363 6364 6365 6366 6367 6368 6369 6370 6371 6372 6373 6374 6375 6376
General Comments
steel forgings to BS1503 1980 6380 = ’BS1503 164-490’ 6381 = ’BS1503 221-410’ 6382 = ’BS1503 221-430’ 6383 = ’BS1503 221-460’ 6384 = ’BS1503 221-490’ 6385 = ’BS1503 221-510’ 6386 = ’BS1503 221-530’ 6387 = ’BS1503 221-550’ 6388 = ’BS1503 223-410’ 6389 = ’BS1503 223-430’ 6390 = ’BS1503 223-460’ 6391 = ’BS1503 223-490’ 6392 = ’BS1503 223-510’ 6393 = ’BS1503 224-410’ 6394 = ’BS1503 224-430’ 6395 = ’BS1503 224-460’ 6396 = ’BS1503 224-490’ 6397 = ’BS1503 224-510’
599
________________ Reference Data Manager Reference Guide — April 2002
600
6398 6399 6400 6401 6402 6403 6404 6405 6406 6407 6408 6409 6410 6411 6412 6413 6414
= = = = = = = = = = = = = = = = =
’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503
245-420’ 620-440’ 620-540’ 621-460’ 660-460’ 271-560’ 622-490’ 622-560’ 622-650’ 625-520’ 625-590’ 503-490’ 509-690’ 410S21’ 420S29’ 403S17’ 405S17’
6415 6416 6417 6418 6419 6420 6421 6422 6423 6424 6425 6426 6427 6428 6429
= = = = = = = = = = = = = = =
’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503
304S11’ 304S31’ 304S51’ 347S31’ 347S51’ 321S31’ 321S51-490’ 321S51-510’ 316S11’ 316S13’ 316S31’ 316S33’ 316S51’ 320S33’ 310S31’
6430 6431 6432 6433 6434 6435 6436 6437 6438 6439 6440 6441 6442 6443 6444 6445 6446
= = = = = = = = = = = = = = = = =
’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503
164-490E’ 221-430E’ 221-460E’ 221-490E’ 221-510E’ 221-530E’ 221-550E’ 223-410E’ 223-430E’ 223-460E’ 223-490E’ 223-510E’ 224-410E’ 224-430E’ 224-460E’ 224-490E’ 224-510E’
6447 6448 6449 6450 6451 6452 6453 6454 6455 6456
= = = = = = = = = =
’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503
245-420E’ 620-440E’ 620-540E’ 621-460E’ 660-460E’ 271-560E’ 622-490E’ 622-560E’ 622-650E’ 625-520E’
________________ Appendix B:
= = = = =
’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503
625-590E’ 410S21E’ 420S29E’ 403S17E’ 405S17E’
6462 6463 6464 6465 6466 6467 6468 6469 6470 6471 6472 6473 6474
= = = = = = = = = = = = =
’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503
304S11E’ 304S31E’ 304S51E’ 347S31E’ 347S51E’ 321S31E’ 321S51-490E’ 321S51-510E’ 316S11E’ 316S13E’ 316S31E’ 316S33E’ 316S51E’
6475 6476 6477 6478 6479 6480 6481 6482 6483 6484 6485 6486 6487 6488 6489 6490 6491 6492 6493 6494 6495 6496 6497 6498
= = = = = = = = = = = = = = = = = = = = = = = =
’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503
223-410-LT10’ 223-410-LT20’ 223-410-LT50’ 223-430-LT10’ 223-430-LT15’ 223-430-LT40’ 223-460-LT0’ 223-460-LT10’ 223-460-LT20’ 223-490-LT0’ 223-490-LT10’ 223-510-LT0’ 224-410-LT10’ 224-410-LT20’ 224-410-LT50’ 224-430-LT10’ 224-430-LT15’ 224-430-LT40’ 224-460-LT0’ 224-460-LT10’ 224-460-LT20’ 224-490-LT0’ 224-490-LT10’ 224-510-LT0’
B. Codelists
6457 6458 6459 6460 6461
General Comments
6499 = ’BS1503 503-490-LT80’ 6500 = ’BS1503 509-690-LT196’ 6501 6502 6503 6504 6505 6506 6507 6508 6509 6510
= = = = = = = = = =
’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503 ’BS1503
304S11-LT196’ 304S31-LT196’ 347S31-LT196’ 321S31-LT196’ 321S51-490’ 321S51-510’ 316S11-LT196’ 316S13-LT196’ 316S31-LT196’ 316S33-LT196’
steel casting to BS1504 1976 6520 = ’BS1504-161 grade 430A’ 6521 = ’BS1504-161 grade 480A’
601
________________ Reference Data Manager Reference Guide — April 2002
6522 6523 6524 6525 6526 6527 6528 6529 6530 6531 6532 6533 6534 6535 6536 6537 6538 6539 6540 6541 6542 6543 6544 6545 6546 6547 6548 6549 6550 6551 6552 6553 6554 6555 6556 6557 6558 6559 6560 6561 6562
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
’BS1504-161 grade 540A’ ’BS1504-161 grade 430E’ ’BS1504-161 grade 480E’ ’BS1504-161 grade 430A-LT40’ ’BS1504-245A’ ’BS1504-245B’ ’BS1504-245A-LT50’ ’BS1504-503-LT60’ ’BS1504-621A’ ’BS1504-622A’ ’BS1504-622E’ ’BS1504-623A’ ’BS1504-625A’ ’BS1504-625E’ ’BS1504-629A’ ’BS1504-660A’ ’BS1504-420C29A’ ’BS1504-425C11A’ ’BS1504-304C15A’ ’BS1504-304C15A-LT196’ ’BS1504-304C12A’ ’BS1504-304C12A-LT196’ ’BS1504-347C17A’ ’BS1504-347C17A-LT196’ ’BS1504-315C16A’ ’BS1504-315C16A-LT196’ ’BS1504-316C12A’ ’BS1504-316C16A’ ’BS1504-316C71A’ ’BS1504-318C17A’ ’BS1504-316C16E’ ’BS1504-316C71E’ ’BS1504-316C12A-LT196’ ’BS1504-316C16A-LT196’ ’BS1504-316C71A-LT196’ ’BS1504-317C12A’ ’BS1504-317C16A’ ’BS1504-364C11A’ ’BS1504-332C11A’ ’BS1504-310C40A’ ’BS1504-330C11A’
steel bars and billets for bolting BS1506 1986 6570 = ’BS1506-162’ 6571 = ’BS1506-253’ 6572 = ’BS1506-253-LT100’ 6573 = ’BS1506-509-650’ 6574 = ’BS1506-509-650-LT196’ 6575 = ’BS1506-509-690’ 6576 = ’BS1506-509-690-LT196’ 6577 = ’BS1506-630-790’ 6578 = ’BS1506-630-790-LT100’ 6579 = ’BS1506-630-790-LT75’ 6580 = ’BS1506-630-860’ 6581 = ’BS1506-630-860-LT100’ 6582 = ’BS1506-630-690’ 6583 = ’BS1506-630-690-LT100’ 6584 = ’BS1506-631-850’ 6585 = ’BS1506-670-860’ 6586 = ’BS1506-671-850’ 6587 = ’BS1506-681-820’ 6588 = ’BS1506-410S21-690’
602
________________ Appendix B:
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
’BS1506-410S21-720’ ’BS1506-410S21-760’ ’BS1506-410S21-750’ ’BS1506-410S21-770’ ’BS1506-416S29’ ’BS1506-286S31’ ’BS1506-286S31-LT196’ ’BS1506-304S31’ ’BS1506-304S31-LT196’ ’BS1506-304S51’ ’BS1506-304S61’ ’BS1506-304S61-LT196’ ’BS1506-304S71’ ’BS1506-304S71-LT196’ ’BS1506-303S22’ ’BS1506-316S31’ ’BS1506-316S31-LT196’ ’BS1506-316S33’ ’BS1506-316S33-LT196’ ’BS1506-316S51’ ’BS1506-316S53’ ’BS1506-316S61’ ’BS1506-316S61-LT196’ ’BS1506-316S63’ ’BS1506-316S63-LT196’ ’BS1506-316S65’ ’BS1506-316S65-LT196’ ’BS1506-316S67’ ’BS1506-316S67-LT196’ ’BS1506-321S31’ ’BS1506-321S31-LT196’ ’BS1506-321S51-490’ ’BS1506-321S51-520’ ’BS1506-347S31’ ’BS1506-347S31-LT196’ ’BS1506-347S51’
B. Codelists
6589 6590 6591 6592 6593 6594 6595 6596 6597 6598 6599 6600 6601 6602 6603 6604 6605 6606 6607 6608 6609 6610 6611 6612 6613 6614 6615 6616 6617 6618 6619 6620 6621 6622 6623 6624
General Comments
7999 = ’undefined’
CL148, Piping Materials Class Description (31999) NOTE: Codelist numbers 2-7999 are reserved for values that apply to US practices. Codelist numbers 8000-31999 are reserved for values that apply to practices in other countries. 1 = [Blank] US Piping Material Class Irons, F 2 = [FAY1W8] [8F0002] 3 = [FDYLW8] [8F0003] 6 = [FDYLU9] [9F0006]
’Gravity Head, Gray CI’ ’Gravity Head, DI Cement Lined’ ’AWWA 150# MJ, DI Cement Lined’
Carbon 14 = 16 = 19 = 31 = 32 = 33 = 35 =
’CL125 ’CL125 ’CL150 ’CL150 ’CL300 ’CL600 ’CL150
Steels, C [CAA5UA] [AC0014] [CAA5VA] [AC0016] [CAALV1] [1C0019] [CAC5C1] [1C0031] [CAC5C2] [2C0032] [CAC5C4] [4C0033] [CAC5G1] [1C0035]
Descriptions, 2-7999
FFFE, FFFE, FFFE, RFFE, RFFE, RFFE, RFFE,
CS, Brnz Trim’ Brnz Trim’ CS Cement Lined’ CS, Trim 8’ CS, Trim 8’ CS, Trim 8’ CS, Trim 8’
603
________________ Reference Data Manager Reference Guide — April 2002
43 45 48 49 50 51 65 66 73 74 75 76 105 106 146 153 171 176 177 182 183 185 186 320 389 390 391 394 395 396 397 400 401 402 403 405 407 458 459 460 461 548 549 551 557 564 577 593 600 601 602 609 610 611 618 619 620 630 722 723 724 730
604
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
[CAC5Q1] [CAC5R1] [CAC5U1] [CAC7C1] [CAC7C2] [CAC7C4] [CAC8C1] [CAC8C2] [CAC9C1] [CAC9C2] [CAC9C4] [CAC9C5] [CAD7K1] [CAD7K2] [CAF5S1] [CAF7J1] [CAFYC1] [CAH5C1] [CAH5C2] [CAH5G1] [CAH5G2] [CAH7C1] [CAH7C2] [CALYC2] [CAU5P4] [CAU5P5] [CAU5P6] [CAU5Q2] [CAU5Q4] [CAU5Q5] [CAU5Q6] [CAU5R2] [CAU5R4] [CAU5R5] [CAU5R6] [CAU5RF] [CAU7C6] [CAYYC1] [CAYYC2] [CDA1U1] [CDA5U1] [CJD7K1] [CJD7K2] [CJD7K5] [CJD8K2] [CJD9K1] [CJE7C2] [CJE9C2] [CJF5C1] [CJF5C2] [CJF5C4] [CJF7C1] [CJF7C2] [CJF7C4] [CJF9C1] [CJF9C2] [CJF9C4] [CJH7C4] [CJL7C2] [CJL7C4] [CJL7C5] [CJL9C2]
[1C0043] [1C0045] [1C0048] [1C0049] [2C0050] [4C0051] [1C0065] [2C0066] [1C0073] [2C0074] [4C0075] [5C0076] [1C0105] [2C0106] [1C0146] [1C0153] [1C0171] [1C0176] [2C0177] [1C0182] [2C0183] [1C0185] [2C0186] [2C0320] [4C0389] [5C0390] [6C0391] [2C0394] [4C0395] [5C0396] [6C0397] [2C0400] [4C0401] [5C0402] [6C0403] [FC0405] [6C0407] [1C0458] [2C0459] [1C0460] [1C0461] [1C0548] [2C0549] [5C0551] [2C0557] [1C0564] [2C0577] [2C0593] [1C0600] [2C0601] [4C0602] [1C0609] [2C0610] [4C0611] [1C0618] [2C0619] [4C0620] [4C0630] [2C0722] [4C0723] [5C0724] [2C0730]
’CL150 RFFE, CS, Trim 8, (ANSI-B31.1)’ ’CL150 RFFE, CS, Trim 8’ ’CL150 RFFE, CS, Trim 8’ ’CL150 RFFE, CS, Trim 8’ ’CL300 RFFE, CS, Trim 8’ ’CL600 RFFE, CS, Trim 8’ ’CL150 RFFE, CS, Trim 8’ ’CL300 RFFE, CS, Trim 8’ ’CL150 RFFE, CS, Trim 8’ ’CL300 RFFE, CS, Trim 8’ ’CL600 RFFE, CS, Trim 8’ ’CL900 RFFE, CS, Trim 8’ ’CL150 RFFE, CS, Trim 9’ ’CL300 RFFE, CS, Trim 9’ ’CL150 RFFE, CS, SS/TFE Trim’ ’CL150 RFFE, CS, Trim 13’ ’CL150 RFFE, CS, 316 Trim’ ’CL150 RFFE-SF, CS, Trim 8’ ’CL300 RFFE-SF, CS, Trim 8’ ’CL150 RFFE-SF, CS, Trim 8’ ’CL300 RFFE-SF, CS, Trim 8’ ’CL150 RFFE-SF, CS, Trim 8’ ’CL300 RFFE-SF, CS, Trim 8’ ’CL300 RFFE-SF, CS, 316 Trim’ ’CL600 BE/RFFE, CS, Trim 8, (ASME-I)’ ’CL900 BE/RFFE, CS, Trim 5, (ASME-I)’ ’CL1500 BE/RJFE, CS, Trim 5, (ASME-I)’ ’CL300 BE/RFFE, CS, Trim 8, (ANSI-B31.1)’ ’CL600 BE/RFFE, CS, Trim 8, (ANSI-B31.1)’ ’CL900 BE/RFFE, CS, Trim 5, (ANSI-B31.1)’ ’CL1500 BE/RJFE, CS, Trim 5, (ANSI-B31.1)’ ’CL300 BE/RFFE, CS, Trim 8, (ANSI-B31.3)’ ’CL600 BE/RFFE, CS, Trim 8, (ANSI-B31.3)’ ’CL900 BE/RFFE, CS, Trim 5, (ANSI-B31.3)’ ’CL1500 BE/RJFE, CS, Trim 5, (ANSI-B31.3)’ ’CL800 BE/RFFE, CS, Trim 5, (ANSI-B31.3)’ ’CL1500 BE/RJFE, CS, Trim 8’ ’CL150 BE, CS’ ’CL300 BE, CS’ ’CL150 FFFE, Galv CS, Brnz Trim’ ’CL150 FFFE, Galv CS, Brnz Trim’ ’CL150 RFFE, Killed CS, Trim 12’ ’CL300 RFFE, Killed CS, Trim 12’ ’CL900 RFFE, Killed CS, Trim 12’ ’CL300 RFFE, Killed CS, Trim 12’ ’CL150 RFFE, Killed CS, Trim 12’ ’CL300 RFFE, Killed CS, NACE, Trim 9’ ’CL300 RFFE, Killed CS, NACE, Trim 9’ ’CL150 RFFE, Killed CS, NACE, Trim 12’ ’CL300 RFFE, Killed CS, NACE, Trim 12’ ’CL600 RFFE, Killed CS, NACE, Trim 12’ ’CL150 RFFE, Killed CS, NACE, Trim 12’ ’CL300 RFFE, Killed CS, NACE, Trim 12’ ’CL600 RFFE, Killed CS, NACE, Trim 12’ ’CL150 RFFE, Killed CS, NACE, Trim 12’ ’CL300 RFFE, Killed CS, NACE, Trim 12’ ’CL600 RFFE, Killed CS, NACE, Trim 12’ ’CL600 RFFE-SF, Killed CS, Trim 8’ ’CL300 RFFE-SF, Killed CS, NACE, Trim 12’ ’CL600 RFFE-SF, Killed CS, NACE, Trim 12’ ’CL900 RFFE-SF, Killed CS, NACE, Trim 12’ ’CL300 RFFE-SF, Killed CS, NACE, Trim 12’
________________ Appendix B:
731 732 785 794 800 803 841 842
= = = = = = = =
[CJL9C4] [CJL9C5] [CJU7C6] [CJV5C6] [CJV7C6] [CJV7K6] [CPD5D1] [CPD5D2]
[4C0731] [5C0732] [6C0785] [6C0794] [6C0800] [6C0803] [1C0841] [2C0842]
General Comments
’CL600 RFFE-SF, Killed CS, NACE, Trim 12’ ’CL900 RFFE-SF, Killed CS, NACE, Trim 12’ ’CL1500 BE/RJFE, Killed CS, Trim 8’ ’CL1500 BE/RJFE, Killed CS, Trim 8’ ’CL1500 BE/RJFE, Killed CS, NACE, Trim 12’ ’CL1500 BE/RJFE, Killed CS, Trim 12’ ’CL150 RFFE, Low Temp CS, Trim 2’ ’CL300 RFFE, Low Temp CS, Trim 2’
B. Codelists
Low and Intermediate Alloy Steels, L 1669 = [LPFYG2] [2L1669] ’CL300 RFFE, 1.25Cr-0.5Mo, 316 Trim’ 1670 = [LPTYG2] [2L1670] ’CL300 RFFE, 1.25Cr-0.5Mo, 316 Trim’ 1671 = [LPH5B1] [1L1671] ’CL150 RFFE-SF, 1.25Cr-0.5Mo, Trim 8’ 1672 = [LPH5B2] [2L1672] ’CL300 RFFE-SF, 1.25Cr-0.5Mo, Trim 8’ 1673 = [LPH5B4] [4L1673] ’CL600 RFFE-SF, 1.25Cr-0.5Mo, Trim 8’ 1677 = [LPH7B1] [1L1677] ’CL150 RFFE-SF, 1.25Cr-0.5Mo, Trim 8’ 1678 = [LPH7B2] [2L1678] ’CL300 RFFE-SF, 1.25Cr-0.5Mo, Trim 8’ 1679 = [LPH7B4] [4L1679] ’CL600 RFFE-SF, 1.25Cr-0.5Mo, Trim 8’ 1691 = [LPH9B4] [4L1691] ’CL600 RFFE-SF, 1.25Cr-0.5Mo, Trim 8’ 1864 = [LPU5B6] [6L1864] ’CL1500 BE/RJFE, 1.25Cr-0.5Mo, Trim 8’ 1868 = [LPU5P5] [5L1868] ’CL900 BE/RFFE, 1.25Cr-0.5Mo, Trim 5, (ASME-I)’ 1869 = [LPU5P6] [6L1869] ’CL1500 BE/RJFE, 1.25Cr-0.5Mo, Trim 5, (ASME-I)’ 1874 = [LPU5Q5] [5L1874] ’CL900 BE/RFFE, 1.25Cr-0.5Mo, Trim 5, (ANSI-B31.1) 1875 = [LPU5Q6] [6L1875] ’CL1500 BE/RJFE, 1.25Cr-0.5Mo, Trim 5, (ANSI-B31.1 1882 = [LPU5R6] [6L1882] ’CL1500 BE/RJFE, 1.25Cr-0.5Mo, Trim 5, (ANSI-B31.3 1885 = [LPU7B6] [6L1885] ’CL1500 BE/RJFE, 1.25Cr-0.5Mo, Trim 8’ 3013 = [LTC5B1] [1L3013] ’CL150 RFFE, 5Cr-0.5Mo, Trim 8’ 3014 = [LTC5B2] [2L3014] ’CL300 RFFE, 5Cr-0.5Mo, Trim 8’ 3027 = [LTC7B1] [1L3027] ’CL150 RFFE, 5Cr-0.5Mo, Trim 8’ 3028 = [LTC7B2] [2L3028] ’CL300 RFFE, 5Cr-0.5Mo, Trim 8’ 3029 = [LTC7B4] [4L3029] ’CL600 RFFE, 5Cr-0.5Mo, Trim 8’ 3040 = [LTC8B1] [1L3040] ’CL150 RFFE, 5Cr-0.5Mo, Trim 8’ 3041 = [LTC8B2] [2L3041] ’CL300 RFFE, 5Cr-0.5Mo, Trim 8’ 3042 = [LTC8B4] [4L3042] ’CL600 RFFE, 5Cr-0.5Mo, Trim 8’ 3048 = [LTC9B1] [1L3048] ’CL150 RFFE, 5Cr-0.5Mo, Trim 8’ 3049 = [LTC9B2] [2L3049] ’CL300 RFFE, 5Cr-0.5Mo, Trim 8’ 3193 = [LTH7B5] [5L3193] ’CL900 RFFE-SF, 5Cr-0.5Mo, Trim 8’ 3203 = [LTH9B2] [2L3203] ’CL300 RFFE-SF, 5Cr-0.5Mo, NACE, Trim 8’ 3204 = [LTH9B4] [4L3204] ’CL600 RFFE-SF, 5Cr-0.5Mo, NACE, Trim 8’ 3390 = [LTU7B6] [6L3390] ’CL1500 BE/RJFE, 5Cr-0.5Mo, Trim 8’ 3725 = [LVC7B1] [1L3725] ’CL150 RFFE, 9Cr-1Mo, Trim 8’ 3726 = [LVC7B2] [2L3726] ’CL300 RFFE, 9Cr-1Mo, Trim 8’ 3746 = [LVC9B1] [1L3746] ’CL150 RFFE, 9Cr-1Mo, Trim 8’ 3747 = [LVC9B2] [2L3747] ’CL300 RFFE, 9Cr-1Mo, Trim 8’ 3748 = [LVC9B4] [4L3748] ’CL600 RFFE, 9Cr-1Mo, Trim 8’ 3749 = [LVC9B5] [5L3749] ’CL900 RFFE, 9Cr-1Mo, Trim 8’ Stainless Steels, S 3977 = [SAC3T1] [1S3977] 3978 = [SAC3T2] [2S3978] 3979 = [SAC3T4] [4S3979] 3980 = [SAC3T5] [5S3980] 3984 = [SAD3C1] [1S3984] 3985 = [SAD3C2] [2S3985] 3988 = [SAD3E1] [1S3988] 3989 = [SAD3E2] [2S3989] 3991 = [SAD3F1] [1S3991] 4104 = [SAFYG1] [1S4104] 4218 = [SAM3T6] [6S4218] 4396 = [SBD3C2] [2S4396] 4488 = [SBF3U1] [1S4488] 5135 = [SED5C1] [1S5135]
’CL150 RFFE, 304/CS Valves, Trim 8’ ’CL300 RFFE, 304/CS Valves, Trim 8’ ’CL600 RFFE, 304/CS Valves, Trim 8’ ’CL900 RFFE, 304/CS Valves, Trim 8’ ’CL150 RFFE, 304/316 Valves, Trim 12’ ’CL300 RFFE, 304/316 Valves, Trim 12’ ’CL150 RFFE, 304, Trim 2’ ’CL300 RFFE, 304, Trim 2’ ’CL150 RFFE, 304, Trim 2’ ’CL150 RFFE, 304, 316 Trim’ ’CL1500 RJFE, 304/CS Valves, Trim 8’ ’CL300 RFFE, 304L/316 Valves, Trim 12’ ’CL150 RFFE, 304/316 Valves, Trim 2’ ’CL150 RFFE, 316, Trim 12’
605
________________ Reference Data Manager Reference Guide — April 2002
5187 5188 5189 5197 6246 6247 6258 6449 6450 6457
= = = = = = = = = =
[SEF3C1] [SEF3C2] [SEF3C4] [SEF3G1] [SHJ3B2] [SHJ3B4] [SHJ5B2] [SHV3B5] [SHV3B6] [SHV5B6]
[1S5187] [2S5188] [4S5189] [1S5197] [2S6246] [4S6247] [2S6258] [5S6449] [6S6450] [6S6457]
’CL150 RFFE, 316, Trim 12’ ’CL300 RFFE, 316, Trim 12’ ’CL600 RFFE, 316, Trim 12’ ’CL150 RFFE, 316, Trim 12’ ’CL300 RFFE-SF, 321/347 Valves, 347HF Trim’ ’CL600 RFFE-SF, 321/347 Valves, 347HF Trim’ ’CL300 RFFE-SF, 321/347 Valves, 347HF Trim’ ’CL900 BE/RFFE-SF, 321/347 Valves, 347HF Trim’ ’CL1500 BE/RJFE, 321/347 Valves, 347HF Trim’ ’CL1500 BE/RJFE, 321/347 Valves, 347HF Trim’
Copper Alloys, K Nickel Alloys, N 7540 = [NGF5G1] [1N7540] ’CL150 RFFE, Inconel 600, Inconel Trim’ Aluminum Alloys, A Other Materials, X 7687 = [XCY1W8] [8X7687] ’Gravity Head, Vitrified Clay’ 7689 = [XEY1W8] [8X7689] ’Gravity Head, Reinforced Concrete’ 7733 = [XTY1U9] [9X7733] ’SCH-80, SE, PVC’ European Piping Material Class Descriptions, 8000-9999 8000 = ’Carbon steel’ 8001 = ’Stainless steel’ 8002 = ’Forged steel’ 8010 = ’Ferritic steel’ 8011 = ’Austenitic steel’ 8020 = ’Plastic’ 8021 = ’Fiber glass’ 8030 = ’Glass lined’ 8031 = ’Cement lined’ 8032 = ’Chloroprene (CR) lined’ 9999 = ’Undefined’ The names of Piping Materials Classes are determined as follows:
o A list includes possible Piping Materials Classes. It consists of six ch names which are established on the basis of the naming convention ABCDEF. meaning of each of the characters in this code is defined below. Corresp values are given in the lists included in subsequent pages. A.......materials group B.......materials type C.......detail features D.......corrosion allowance or type of lining E.......service description F.......pressure rating
o The name of a Piping Materials Class is then determined from the conventi FAXXX, where: F.......pressure rating A.......material group XXX.....sequence number from list in 2090-41-SN MATERIALS GROUP AND TYPE: (1st and 2nd character)
606
________________ Appendix B:
General Comments
Irons, F A= Gray iron D= Ductile iron G= Ferritic ductile iron J= Austenitic ductile iron Z= Other 1
Low A= C= D= G= J= M= N= P= Q= R= S= T= U= V= X= Y= Z=
B. Codelists
Carbon Steels, C A= CS D= CS, galvanized G= CS, jacketed J= CS, killed M= CS, killed, jacketed P= CS, low temp X= Other 1 Y= Other 2 Z= Other 3 and Intermediate Alloys, L 2Ni-1Cu 3.5Ni 5Ni 9Ni C-0.5Mo 0.75Cr-0.5Mo 1Cr-0.5Mo 1.25Cr-0.5Mo 2Cr-0.5Mo 2.25Cr-1Mo 3Cr-1Mo 5Cr-0.5Mo 7Cr-0.5Mo 9Cr-1Mo Other 1 Other 2 Other 3
Stainless Steels, S A= 304 B= 304L C= 304H D= 310 E= 316 F= 316L G= 316H H= 321 J= 321H K= 410S L= CHP10 M= CHP20 N= CPF10MC O= CPH8 P= CPK20 Q= UNS S31200 R= UNS S31250 S= UNS S31500 T= UNS S31803 U= UNS S32304 V= UNS S32550 W= Alloy 20 X= Other 1 Y= Other 2 Z= Other 3
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________________ Reference Data Manager Reference Guide — April 2002
Copper Alloys, K A= Brass F= Bronze K= Copper P= 90Cu-10Ni R= 70Cu-30Ni X= Other 1 Y= Other 2 Z= Other 3 Nickel Alloys, N A= Low C Ni D= Monel E= K-Monel F= R-Monel G= Inconel 600 H= Inconel 601 J= Inconel 625 L= Incoloy 800 M= Incoloy 800H N= Incoloy 801 P= Incoloy 802 Q= Incoloy 825 T= Hastelloy B U= Hastelloy C V= Hastelloy G X= Other 1 Y= Other 2 Z= Other 3 Aluminum Alloys, A C= 3002 aluminum D= 3003 aluminum E= 3004 aluminum F= 5050 aluminum G= 5052 aluminum Q= 6061 aluminum R= 6063 aluminum S= Alclad X= Other 1 Y= Other 2 Z= Other 3 Other Materials, X A= Asbestos cement B= Borosilicate glass C= Clay, vitrified D= Concrete, prestressed E= Concrete, reinforced F= CPVC G= Epoxy/Glass fib J= Furan/Carbon K= Furan/Glass fib L= Kynar N= Nylon P= Polyester/Glass fib Q= Polyethylene, high dens R= Polyethylene, low dens S= Polypropylene T= PVC U= Teflon V= Titanium
608
________________ Appendix B:
W= X= Y= Z=
General Comments
Zirconium Other 1 Other 2 Other 3
MATERIALS CLASS DETAILS: (3rd character) Std FF, std trim Std FF, other Std RF, std trim Std RF, SS trim Std RF, Monel trim Std RF, other Std RF, other RFSF, std trim RFSF, SS trim RFSF, Monel trim RFSF, other RTJ, std trim RTJ, SS trim RTJ, Monel trim RTJ, other MJ, std trim MJ, SS trim MJ, Monel trim MJ, other BE, std trim BE, SS trim BE, Monel trim BE, other Other 1 Other 2
B. Codelists
A= B= C= D= E= F= G= H= J= K= L= M= N= 0= P= Q= R= S= T= U= V= W= X= Y= Z=
CA OR LINING TYPE: (4th character) 1= 2= 3= 4= 5= 6= 7= 8= 9= A= B= C= D= E= F= G= H= J= L= M= N= O= P= Q= R= S= T=
None 0.020" 0.030" 0.050" 0.063" 0.10" 0.125" 0.188" 0.250" 405 clad 410S clad 304 clad 304L clad 316 clad 316L clad 317 clad 317L clad 321 clad Cement lined Epoxy lined Glass lined Kynar lined Polyester lined Polypropylene lined PTFE lined Saran lined Teflon lined
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________________ Reference Data Manager Reference Guide — April 2002
U= V= W= X= Y= Z=
TK31 lined R11 lined R15 lined R18 lined Other 1 Other 2
SERVICE: (5th character) A= B= C= D= E= F= G= H= J= K= L= P= Q= R= S= T= U= V= W= X= Y= Z=
Process, hottest (-20 to 1500+/- degF) Process, hotter (-20 to 1000+/- degF) Process, hot (-20 to 800 degF) Process, cold (-20 to -50 degF) Process, colder (-20 to -150 degF) Process, coldest (-20 to -425 degF) Process, other Category M Acid Caustic/Amine LPG Steam ASME-I Steam B31.1 Steam B31.3 Fuel gas, fuel oil Lube oil, seal oil Category D Firewater Sewer Instrument Other 1 Other 2
RATING: (6th character) 1= 2= 3= 4= 5= 6= 7= 8= 9= A= F= G= H= J= K= L= M= N= R= T= V=
610
CL150 CL300 CL400 CL600 CL900 CL1500 CL2500 GRAVHD OTHER CL125 CL800 CL2000 CL3000 CL4500 CL5000 CL6000 CL9000 CL10000 CL15000 CL20000 CL30000
________________ Appendix B:
General Comments
CL160, Responsibility (25) = = = = = = = = = = = = =
[Blank] ’By Contractor’ ’By Owner’ ’By A’ ’By B’ ’By C’ ’By D’ ’By E’ ’By Equip Vendor’ ’By Vendor’ ’By Piping’ ’By Instruments’ ’By Others’
B. Codelists
1 2 3 4 5 6 7 8 9 10 15 16 25
CL180, Fabrication Category (99) NOTE: Some data displays require that only values to the left of the "=" sign be shown; other reports require that only values to the right of the "=" sign be displayed. 1 5 7 15 17 25 27 35 37 45 47 95 97
= = = = = = = = = = = = =
[Blank] ’CSSF, Contractor supplied, shop fabricated’ ’CSFF, Contractor supplied, field fabricated’ ’SSSF, Shop supplied, shop fabricated’ ’SSFF, Shop supplied, field fabricated’ ’FSSF, Field supplied, shop fabricated’ ’FSFF, Field supplied, field fabricated’ ’ASSF, A supplied, shop fabricated’ ’ASFF, A supplied, field fabricated’ ’BSSF, B supplied, shop fabricated’ ’BSFF, B supplied, field fabricated’ ’OSSF, Owner supplied, shop fabricated’ ’OSFF, Owner supplied, field fabricated’
CL190, Coating Requirements (99) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
= = = = = = = = = = = = = = = = = =
[Blank] ’None’ ’Galv’ ’PS1.04’ ’PS1.07’ ’PS1.08’ ’PS1.09’ ’PS1.10’ ’PS1.11’ ’PS1.12’ ’PS1.13’ ’PS2.03’ ’PS2.05’ ’PS4.01’ ’PS4.02’ ’PS4.03’ ’PS4.04’ ’PS4.05’
611
________________ Reference Data Manager Reference Guide — April 2002
19 20 21 22 23 24 25 26 27 28 40
= = = = = = = = = = =
’PS8.01’ ’PS9.01’ ’PS10.01’ ’PS10.02’ ’PS11.01’ ’PS12.01’ ’PS13.01’ ’PS14.01’ ’PS16.01’ ’PS18.01’ ’Varies’
CL200, Heat Tracing Requirements (10) NOTE: In editing this codelist set, do not change the meaning of existing codelist values. 1 2 3 4
= = = =
[Blank] ’NT’ [Not heat traced] ’HT’ [Heat traced] ’PHT’ [Partially heat traced]
CL210, Heat Tracing Media (60) NOTE: Codelist numbers 3-39 have been reserved for heat tracing media used for non-jacketed pipe heat tracing. Codelist numbers 40-60 have been reserved for heat tracing media used for jacketed pipe heat tracing. It is important that this allocation be respected. 1 = [Blank] 2 = ’N’ [None] For Non Jacketed Pipe Heat Tracing, 3-39 3 = ’E’ [Electric] 10 = ’FA’ [Heat transfer fluid A] 11 = ’FB’ [Heat transfer fluid B] 12 = ’FC’ [Heat transfer fluid C] 16 = ’I’ [Impedance] 17 = ’MI’ [Magnetic induction] 18 = ’SKE’ [Skin effect] 20 = ’SH’ [Steam high pressure, CL900] 21 = ’SL’ [Steam low pressure, CL150] 22 = ’SM’ [Steam medium pressure, CL600] 23 = ’SN’ [Steam normal pressure, CL300] 24 = ’SS’ [Steam superheated] For Jacketed Pipe Heat Tracing, 40-60 40 = ’FAJ’ [Heat transfer fluid A] 41 = ’FBJ’ [Heat transfer fluid B] 42 = ’FCJ’ [Heat transfer fluid C] 50 = ’SHJ’ [Steam high pressure, CL900] 51 = ’SLJ’ [Steam low pressure, CL150] 52 = ’SMJ’ [Steam medium pressure, CL600] 53 = ’SNJ’ [Steam normal pressure, CL300] 54 = ’SSJ’ [Steam superheated]
612
________________ Appendix B:
General Comments
CL220, Insulation Purpose (40) = = = = = = = = = = = = = = = = = =
[Blank] ’N’ ’P’ ’H’ ’HS’ ’HF’ ’AS’ ’C’ ’CV’ ’CS’ ’CH’ ’CF’ ’S’ ’SV’ ’R11’ ’R15’ ’R18’ ’Varies’
[Not insulated] [Personnel protection insulated] [Hot insulated] [Hot insulated with sound attenuation] [Hot insulated with fire protection] [Anti-sweat insulated] [Cold insulated] [Cold insulated vacuum type] [Cold insulated with sound attenuation] [Cold and hot insulated] [Cold insulated with fire protection] [Sound attenuation insulated] [Sound attenuation insulation with vapor barrier] [Refractory lined, insulation] [Refractory lined, insulation/erosion] [Refractory lined, erosion]
B. Codelists
1 2 3 4 5 11 14 15 16 17 18 20 21 22 30 32 34 40
CL230, Cleaning Requirements (99) 1 2 3 4 5 6 7 15
= = = = = = = =
[Blank] ’None’ ’CC1’ ’CC2’ ’CC3’ ’CC4’ ’CC5’ ’Varies’
CL330, CP Type/Termination/Preparation (999) NOTE: Use 2-199 for bolted types; 300-399 for male types and 400-599 for female types. Refer to Reference Data Manager (PD_DATA) Reference Guide for additional data. 1 = [Blank] 2 = ’FE’ Use 11-15 for ends without integral gaskets. 10 = ’FFTP (11-19)’ 11 = ’FFFE’ 16 = ’FFFEWG’ Use 21-25 for ends without integral gaskets. 20 = ’RFTP (21-29)’ 21 = ’RFFE’ 26 = ’RFFEWG’
[Flanged end] integral gaskets; 16-19 for ends with [Flat-face flanged termination type] [Flat-face flanged end] [Flat-face flanged end with integral gasket] integral gaskets; 26-29 for ends with [Raised-face flanged termination type] [Raised-face flanged end] [Raised-face flanged end with integral gasket]
Use 31-35 for ends without integral gaskets; 36-39 for ends with integral gaskets. 30 = ’RJFTP (31-39)’ [RTJ-face flanged termination type] 31 = ’RJFE’ [RTJ-face flanged end]
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________________ Reference Data Manager Reference Guide — April 2002
Use 41-45 for ends without integral gaskets. 40 = ’TMFTP (41-49)’ 41 = ’STFE’ 42 = ’LTFE’ 43 = ’SMFE’ 44 = ’LMFE’ Use 51-55 for ends without integral gaskets. 50 = ’GFFTP (51-59)’ 51 = ’SGFE’ 52 = ’LGFE’ 53 = ’SFFE’ 54 = ’LFFE’
integral gaskets; 46-49 for ends with [Tongue/male-face flanged termination type] [Small-tongue-face flanged end] [Large-tongue-face flanged end] [Small-male-face flanged end] [Large-male-face flanged end] integral gaskets; 56-59 for ends with [Groove/female-face flanged termination type] [Small-groove-face flanged end] [Large-groove-face flanged end] [Small-female-face flanged end] [Large-female-face flanged end]
Use 61-65 for lap-flanged ends without integral gaskets; 66-69 for lap-flanged ends with integral gaskets. 60 = ’FFLFTP (61-69)’ [Flat-face lap-flanged termination type] 61 = ’FFLFE [Flat-face lap-flanged end] Use 71-75 for lap-flanged ends without integral gaskets; 76-79 for lap-flanged ends with integral gaskets. 70 = ’RFLFTP (71-79)’ [Raised-face lap-flanged termination type] 71 = ’RFLFE’ [Raised-face lap-flanged end] Use 81-85 for lap-flanged ends without integral gaskets; 86-89 for lap-flanged ends with integral gaskets. 80 = ’RJFLFTP (81-89)’ [RTJ-face lap-flanged termination type] 81 = ’RJLFE’ [RTJ-face lap-flanged end] Use 91-95 for lap-flanged ends without integral gaskets; 96-99 for lap-flanged ends with integral gaskets. 90 = ’TMFLFTP (91-99)’ [Tongue/male-face lap-flanged termination type] 91 = ’STLFE’ [Small-tongue-face lap-flanged end] 92 = ’LTLFE’ [Large-tongue-face lap-flanged end] 93 = ’SMLFE’ [Small-male-face lap-flanged end] 94 = ’LMLFE’ [Large-male-face lap-flanged end] Use for 100 101 102 103 104
101-105 for lap-flanged ends without integral gaskets; 106-109 lap-flanged ends with integral gaskets. = ’GFFLFTP (101-109)’[Groove/female-face lap-flanged termination type] = ’SGLFE’ [Small-groove-face lap-flanged end] = ’LGLFE’ [Large-groove-face lap-flanged end] = ’SFLFE’ [Small-female-face lap-flanged end] = ’LFLFE’ [Large-female-face lap-flanged end]
Use 111-115 for ends without integral with integral gaskets. 110 = ’FFTBTP (111-119)’[Flat-face 111 = ’FFTBE’ [Flat-face 116 = ’FFTBEWG’ [Flat-face
gaskets; 116-119 for ends thru-bolted termination type] thru-bolted end] thru-bolted end with integral gasket]
Use 121-125 for ends without integral gaskets; 126-129 for ends with integral gaskets. 120 = ’RFTBTP (121-129)’[Raised-face thru-bolted termination type] 121 = ’RFTBE’ [Raised-face thru-bolted end] 126 = ’RFTBEWG’ [Raised-face thru-bolted end with integral gasket] Use 131-135 for ends without integral gaskets; 136-139 for ends with integral gaskets. 130 = ’RJTBTP (131-139)’[RTJ-face thru-bolted termination type] 131 = ’RJTBE’ [RTJ-face thru-bolted end]
614
________________ Appendix B:
General Comments
Use 141-145 for ends without integral gaskets; 146-149 for ends with integral gaskets. 140 = ’MRJTBTP (141-149)’[Male RTJ-face thru-bolted termination type] 146 = ’MRJTBEWG’ [Male RTJ-face thru-bolted end with integral gasket] Use 151-155 for ends without integral with integral gaskets. 150 = ’FFTBCSTP (151-159)’[Flat-face 151 = ’FFTBCSE’ [Flat-face 156 = ’FFTBCSEWG’ [Flat-face
gaskets; 156-159 for ends
thru-bolted-with-cap-screws termination ty thru-bolted-with-cap-screws end] thru-bolted-with-cap-screws end with integ
B. Codelists
Use 161-165 for ends without integral gaskets; 166-169 for ends with integral gaskets. 160 = ’RFTBCSTP (161-169)’[Raised-face thru-bolted-with-cap-screws termination 161 = ’RFTBCSE’ [Raised-face thru-bolted-with-cap-screws end] 166 = ’RFTBCSEWG’ [Raised-face thru-bolted-with-cap-screws end with int
Use 171-175 for ends without integral gaskets; 176-179 for ends with integral gaskets. 170 = ’RJTBCSTP (171-179)’[RTJ-face thru-bolted-with-cap-screws termination typ 171 = ’RJTBCSE’ [RTJ-face thru-bolted-with-cap-screws end] Use 181-185 for ends without integral gaskets; 186-189 with integral gaskets. 180 = ’FFFTBTP (181-189)’[Flat-full-face thru-bolted 181 = ’FFFTBE’ [Flat-full-face thru-bolted 186 = ’FFFTBEWG’ [Flat-full-face thru-bolted
for ends
termination type] end] end with integral gasket]
190 = ’MJTP 191 = ’MJE’
(190-199)’[Mechanical joint termination type] [Mechanical joint end]
300 = ’MTP
(301-399)’[Male termination type]
Use 301-309 for welded ends only 301 = ’BE’ [Beveled end] 302 = ’OLET’ [Olet beveled end] Use 311 321 331 341 351 355 361 371 381
311-319 for welded ends only = ’TBE’ [Tapered and beveled end] = ’MFE’ [Male flared end] = ’MTE’ [Male threaded end] = ’MGE’ [Male grooved end] = ’MQCE’ [Male quick connect end] = ’MCE’ [Male clamp end] = ’MFRE’ [Male ferrule end] = ’MHE’ [Male hose end] = ’SPE’ [Spigot end]
Use 391 393 395
391-399 for welded ends only = ’PE (391-399)’[Plain end] = ’3"FFPE’ [Plain end, 3" field fit] = ’6"FFPE’ [Plain end, 6" field fit]
400 = ’STP 401 = ’SE’
(401-409)’[Socket termination type] [Socket end]
Use 421-429 for welded ends only 420 = ’SWTP (421-429)’[Socketwelded termination type] 421 = ’SWE’ [Socketwelded end]
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________________ Reference Data Manager Reference Guide — April 2002
440 = ’FTTP 441 = ’FTE’
(441-449)’[Female threaded termination type] [Female threaded end]
460 = ’FGTP 461 = ’FGE’
(461-469)’[Female grooved termination type] [Female grooved end]
470 = ’FCTP 471 = ’FCE’
(471-479)’[Female clamp termination type] [Female clamp end]
480 = ’FQCTP 481 = ’FQCE’
(481-489)’[Female quick connect termination type] [Female quick connect end]
500 = ’FFRTP 501 = ’FFRE’
(501-509)’[Female ferrule termination type] [Female ferrule end]
520 = ’FHTP 521 = ’FHE’
(521-529)’[Female hose termination type] [Female hose end]
540 = ’BLTP 541 = ’BLE’ 542 = ’MJBE’
(541-549)’[Bell end termination type] [Push-on bell end] [Mechanical joint bell end]
590 = ’HTP
(581-599)’[Hole end termination type]
Use 591-599 for welded ends only 591 = ’HCE’ [Circular hole end] 600 = ’NTP 601 = ’NE’
(600-605)’[Null termination type] [Null end]
650 = ’UDTP 651 = ’UD’
(651-659)’[User defined termination type] [User defined end] (When a "UD" preparation end is detected by the system in the piping materials class, it will prompt the User to define the actual CP preparation to use. The value provided by the User will be used for initial placement of the component as well as for subsequent recreations of the piping system.)
CL332, Schedule / Thickness Override NOTE: Schedule/thickness override values for metric projects must have codelist values between 499 and 1000. 1 10 11 12 13 14 15 16 17 18 19 20 21 22
616
= = = = = = = = = = = = = =
[Blank] ’.0625’ ’.125’ ’.1875’ ’.25’ ’.3125’ ’.375’ ’.4375’ ’.5’ ’.5625’ ’.625’ ’.6875’ ’.75’ ’.8125’
________________ Appendix B:
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
’.875’ ’.9375’ ’1’ ’1.0625’ ’1.125’ ’1.1875’ ’1.25’ ’1.3125’ ’1.375’ ’1.4375’ ’1.5’ ’1.5625’ ’1.625’ ’1.6875’ ’1.75’ ’1.8125’ ’1.875’ ’1.9375’ ’2’ ’2.0625’ ’2.125’ ’2.1875’ ’2.25’ ’2.3125’ ’2.375’ ’2.4375’ ’2.5’ ’2.5625’ ’2.625’ ’2.6875’ ’2.75’ ’2.8125’ ’2.875’ ’2.9375’ ’3’ ’S-5S’ ’S-10S’ ’S-40S’ ’S-80S’ ’S-10’ ’S-20’ ’S-30’ ’S-40’ ’S-60’ ’S-80’ ’S-100’ ’S-120’ ’S-140’ ’S-160’ ’S-STD’ ’S-XS’ ’S-XXS’
B. Codelists
23 24 25 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 100 101 102 103 110 111 112 113 114 115 116 117 118 119 130 131 132
General Comments
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________________ Reference Data Manager Reference Guide — April 2002
CL340, Safety Classification (99) 1 2 3 4 5 6 7 8 9 10
= = = = = = = = = =
[Blank] ’SC1’ ’SC2’ ’SC3’ ’SC4’ ’SC5’ ’SC6’ ’SC7’ ’SC8’ ’SC9’
CL360, Stress Analysis Requirements (15) NOTE: In editing this codelist set, do not change the meaning of existing codelist values. Some data displays require that only values to the left of the "=" sign be shown; other reports require that only values to the right of the "=" sign be displayed. 1 = [Blank] 2 = ’ANR =Analysis not required’ 3 = ’ATBP=Analysis to be performed’ 4 = ’AC =Analysis completed’
CL365, Reporting Requirements (25) NOTE: In editing this codelist set, do not change the meaning of existing codelist values. 1 = ’Reportable by MTO’ 2 = ’Not Reportable by MTO’
CL366, Requirement to Reconstruct (10) NOTE: In editing this codelist set, do not change the meaning of existing codelist values. Some data displays require that only values to the left of the "=" sign be shown; other reports require that only values to the right of the "=" sign be displayed. Labels always require that only values to the right of the "=" sign be displayed. 0 = ’None’ 1 = ’reconstruct’ 2 = ’re-calculate’
CL380, Piping Component Type (2500) 1 = [Blank] 2 = ’Piping’ 3 = ’Piping’ 4 = ’Piping’
618
[Primary single line] [Secondary single line] [Primary double line]
________________ Appendix B:
5 = ’Piping’ 6 = ’Hose’ 8 = ’Tubing’
General Comments
[Double line]
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
’Gate valve’ ’Extended body gate valve’ ’Conduit gate valve’ ’Blank gate valve’ ’3-way valve’ ’Ball valve’ [2-way] ’2-way valve’ ’3-way ball valve’ ’Globe valve’ [2-way] ’Angle globe valve’ [2-way] ’3-way globe valve’ ’Y globe valve’ ’Plug valve’ [2-way] ’4-way valve’ ’3-way plug valve’ ’4-way plug valve’ ’Needle valve’ ’Butterfly valve’ ’Diaphragm valve’ ’Knife gate valve’ ’Slide valve’ [2-way] ’3-way slide valve’ ’Angle valve’ ’Check valve’ ’Wafer check valve’ ’Angle check valve’ ’Stop check valve’ ’Angle stop check valve’ ’Y stop check valve’ ’Backflow preventer’ ’Automatic recirculation valve’ ’Angle blowdown valve’ ’Y blowdown valve’ ’Pinch valve’ ’Float valve’ ’Foot valve’ ’Tank drain valve’ ’Deluge valve’ ’Hose valve’ ’Angle hose valve’ ’Vent/drain valve’ ’Instrument root valve’ ’3-way instrument root valve’ ’4-way instrument root valve’
117 119 120 122 124 126 127 128 129 130 131 132 133
= = = = = = = = = = = = =
’Flange’ ’Reducing flange’ ’Expander flange’ ’Orifice flange’ ’Blind flange’ ’Open spectacle blank’ ’Closed spectacle blank’ ’Blank disc’ ’Blind spacer’ ’Tapered spacer’ ’Open spacer’ ’End’ ’Head’
B. Codelists
18 19 20 21 22 23 24 25 28 29 30 31 33 34 35 36 39 43 47 49 50 51 54 55 56 57 58 59 60 67 68 70 71 73 74 75 79 86 89 90 93 97 98 99
619
________________ Reference Data Manager Reference Guide — April 2002
135 137 138 139 140 141 142 143 144 148 151 152 155 156 157 159 160 162 163 165 167 169 171 172 173 175 176 177 179 181 182 184 189 191 192 193 195 196 198 200 202 204 206 207 209 210 216 218 220 222 223 224 229 231 233 237 239 240 242 243 246 249
620
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
’Plug’ ’Cap’ ’Diameter change’ ’Concentric diameter change’ ’Eccentric diameter change’ ’Coupling/connector’ ’Half coupling’ ’Concentric reducer’ ’Eccentric reducer’ ’Reducing coupling’ ’Concentric swage’ ’Eccentric swage’ ’Union’ ’Orifice union’ ’Dielectric union’ ’Hose connection’ ’Bushing’ ’Reducing insert’ ’Pipe bend’ ’5.625 deg elbow’ ’11.25 deg elbow’ ’22.5 deg elbow’ ’24"_API+/- thk varies] 7 = ’PDS-P2’ [BLSPC_>24"__API+/-_0.375"thk, BLSPO_>24"_API+/-_0.375"th 8 = ’PDS-P3’ [BLSPC_>24"_MSS+/- thk varies, BLSPO_>24"_MSS+/- thk vari 11 = ’PDS-I1’ [BLSPC_>24"_API+/-_1.5"thk, BLSPO_>24"_API+/-_1.5"thk] 12 = ’PDS-I2’ [BLPAD_>24"_MSS+/-_0.75"thk, BLSPA_>24"_MSS+/-_0.75"thk] 13 = ’PDS-I3’ 16 = ’PDS-Op1’ 17 = ’PDS-Op2’ 18 = ’PDS-Op3’ 31 33 34 35 39 40 41 42 44 45 50 51 52 53 54 55 56 58 59 64 66 69 72 73
636
= = = = = = = = = = = = = = = = = = = = = = = =
’ANSI-B16.1’ ’ANSI-B16.3’ ’ANSI-B16.4’ ’ANSI-B16.5’ ’ANSI-B16.9’ ’ANSI-B16.10’ ’ANSI-B16.11’ ’ANSI-B16.12’ ’ANSI-B16.14’ ’ANSI-B16.15’ ’ANSI-B16.20’ ’ANSI-B16.21’ ’ANSI-B16.22’ ’ANSI-B16.23’ ’ANSI-B16.24’ ’ANSI-B16.25’ ’ANSI-B16.26’ ’ANSI-B16.28’ ’ANSI-B16.29’ ’ANSI-B16.34’ ’ANSI-B16.36’ ’ANSI-B16.39’ ’ANSI-B16.42’ ’ANSI-B16.43’
[Cast Iron Pipe Flanges and Flanged Fittings ||] [Malleable Iron Threaded Fittings ||] [Cast Iron Threaded Fittings ||] [Pipe Flanges and Flanged Fittings ||] [Steel Beveled End Fittings ||] [Dimensions of Ferrous Valves ||] [Forged Steel Socketwelded and Threaded Fittings ||] [Cast Iron Threaded Drainage Fittings ||] [Ferrous Pipe Plugs and Bushings] [Cast Bronze Threaded Fittings ||] [RTJ Gaskets and Grooves ||] [Flat Gaskets for Pipe Flanges ||] [Wrought Copper Solder Joint Pressure Fittings ||] [Cast Copper Solder Joint Drainage Fittings ||] [Bronze Pipe Flanges and Flanged Fittings ||] [Beveled End Preparation] [Cast Copper Alloy Fittings for Flared Copper Tubing] [Steel Beveled End Short Radius Elbows and Returns ||] [Wrought Copper Solder Joint Drainage Fittings] [Valves Flanged and Beveled Ends ||] [Steel Orifice Flanges ||] [Malleable Iron Threaded Pipe Unions ||] [Ductile Iron Pipe Flanges and Flanged Fitting ||] [Wrought Copper Alloy Solder Joint Fittings for Solvent Drainage Systems]
________________ Appendix B:
General Comments
= = = =
’ANSI-B18.2.1’ ’ANSI-B18.2.2’ ’ANSI-B36.10M’ ’ANSI-B36.19M’
[Square and Hex Bolts and Screws ||] [Square and Hex Nuts] [Welded and Seamless Wrought Steel Pipe ||] [Stainless Steel Pipe ||]
114 115 119 120 122 124 126 127 131 132 135 141 145 146 147 153 154 155 157 159 160 161
= = = = = = = = = = = = = = = = = = = = = =
’API-5A’ ’API-5B’ ’API-5L’ ’API-5LE’ ’API-5LP’ ’API-5LS’ ’API-5LU’ ’API-5LX’ ’API-6A’ ’API-6AB’ ’API-6D’ ’API-526’ ’API-590’ ’API-590Z1’ ’API-590Z2’ ’API-593’ ’API-594’ ’API-595’ ’API-597’ ’API-599’ ’API-600’ ’API-601’
162 163 164 165 166 169
= = = = = =
’API-602’ ’API-603’ ’API-604’ ’API-605’ ’API-606’ ’API-609’
[Casing, Tubing and Drill Pipe] [Casing, Tubing and Line Pipe Threads] [Line Pipe ||] [Polyethylene Line Pipe ||] [Thermoplastic Line Pipe ||] [Spiralweld Line Pipe ||] [Ultra High Test Heat Treated Line Pipe ||] [High Test Line Pipe] [Wellhead Equipment] [30,000 PSI Flanged Wellhead Equipment] [Pipeline Valves, End Closures, Connectors and Swivels] [Flanged Steel Safety Relief Valves] [Steel Line Blanks ||] [Steel Line Blanks - with 0.125" CA ||] [Steel Line Blanks - with 0.25" CA ||] [Ductile Iron Plug Valves] [Wafer Check Valves] [Cast Iron Gate Valves] [Steel Venturi Gate Valves] [Steel Plug Valves] [Steel Gate Valves ||] [Metallic Gaskets for Raised Face Pipe Flanges and Flanged Connections ||] [Compact Steel Gate Valves] [Class 150 Cast Flanged End Gate Valves] [Ductile Iron Gate Valves] [Large Diameter Carbon Steel Flanges ||] [Compact Carbon Steel Gate Valves] [Butterfly Valves Lug and Wafer Type]
171 = ’ASTM-A74’ 172 = ’ASTM-C76’ 173 = ’ASTM-C700’
B. Codelists
81 82 100 109
174 = ’ASTM-D2464’ 176 = ’ASTM-D2466’ 177 = ’ASTM-D2467’
[Cast Iron Soil Pipe and Fittings] [Reinforced Concrete Culvert, Storm Drain and Sewer Pipe] [Extra Strength and Standard Strength Clay Pipe and Perforated Clay Pipe] [Threaded PVC Plastic Pipe Fittings Schedule 80] [Socket-Type PVC Plastic Pipe Fittings Schedule 40 ||] [Socket-Type PVC Plastic Pipe Fittings Schedule 80 ||]
179 181 184 186
[Cast Iron Pipe] [Ductile Iron and Gray Iron Fittings 3"-48" ||] [Ductile Iron and Gray Iron Pipe] [Ductile Iron Pipe ||]
= = = =
190= 191= 192= 193 200 204 206 207 208 220 221 222 230
= = = = = = = = = =
’AWWA-C106’ ’AWWA-C110’ ’AWWA-C115’ ’AWWA-C151’
’AWWA-C207 Cl.B & D, ring’ [Steel slip-on flanges CL86, CL150, CL175 ||] ’AWWA-C207 Cl.B & D, hub’ [Steel slip-on flanges CL86, CL150, CL175 ||] ’AWWA-C207 Cl.E, hub’ [Steel slip-on flanges CL275 ||] ’AWWA-C208’ [Steel Water Pipe Fittings] ’AWWA-C500’ [Gate Valves 3"-48" for Water and Sewage Systems] ’AWWA-C504’ [Rubber Seated Butterfly Valves] ’AWWA-C506’ [Backflow Prevention Devices-Check Valves] ’AWWA-C507’ [Ball Valves] ’AWWA-C508’ [Swing Check Valves for Water Works Service 2"-24"] ’AWWA-C900’ [PVC Pipe 4"-12" for Water] ’AWWA-C901’ [Polyethylene Pipe, Tubing and Fittings 1/2"-3" for Water ’AWWA-C902’ [Polybutylene Pipe, Tubing and Fittings 1/2"-3" for Water ’AWWA-C950’ [Glass-Fiber Reinforced Pressure Pipe]
637
________________ Reference Data Manager Reference Guide — April 2002
235 = ’PFI-ES-24’
[Pipe Bending Tolerances ||]
243 = ’ISA-S75.03’ 244 = ’ISA-S75.04’
[Face to Face Dimensions Globe Control Valves] [Face to Face Dimensions Flangeless Control Valves]
252 253 254 255 268 277 278 282 285 288 289 290 291 293 295 297
[CL150 Valves ||] [Stainless Steel Buttwelding Fittings] [Steel Pipe Line Flanges ||] [CL150LW Cast Flanges and Flanged Fittings] [Pipe Hangers and Supports] [Butterfly Valves] [High Pressure-Offset Seat Butterfly Valves] [Ball Valves with Flanged or Beveled Ends] [Wrought Beveled End Fittings] [Cast Iron Plug Valves] [Socketwelding Reducing Inserts] [Bronze Gate, Globe, Angle & Check Valves] [Flanged, Wafer Knife Gate Valves] [Carbon Steel Socketwelded and Threaded Pipe Unions ||] [Diaphragm Valves] [Swage Nipples and Bull Plugs ||]
= = = = = = = = = = = = = = = =
’MSS-SP-42’ ’MSS-SP-43’ ’MSS-SP-44’ ’MSS-SP-51’ ’MSS-SP-58’ ’MSS-SP-67’ ’MSS-SP-68’ ’MSS-SP-72’ ’MSS-SP-75’ ’MSS-SP-78’ ’MSS-SP-79’ ’MSS-SP-80’ ’MSS-SP-81’ ’MSS-SP-83’ ’MSS-SP-88’ ’MSS-SP-95’
298 = ’NFPA-1963’ [Screw Threads and Gaskets for Fire Hose connections] 300 = ’ASME BPE-97’ [Geometry standards that follow apply to specific manufacturers. If one of these standards is used to define a component, the following information will be shown in brackets to the right of the geometry standard: o For valves: the applicable model codes and vendor’s designations o For fittings: the applicable model codes will be shown unless the vendor’s designation is required to differentiate between components requiring a different geometry standard to assign them to the proper data table. 1000 = ’Adamson 1’ 1001 = ’Adams 1’ 1025 = ’Aitken 1’ [BLPAD; BLSPA; TDRA; TDRB; TDRBW ||] 1026 = ’Aitken Z1’ [BLPAD; BLSPA - with 0.125" CA ||] 1027 = ’Aitken Z2’ [BLPAD; BLSPA - with 0.25" CA ||] 1050 = ’Allied Pipe Products 1’ 1075 = ’Aldo Colombo 1’ 1100 = ’Aloyco 1’ [GATR-Fig_114; GATR-Fig_114DB; GATR-Fig_114EB; GATR-Fig_124; GATR-Fig_2214A; GLOR-Fig_2310A; GLOR-Fig_2314A; GLOR-Fig_314; GLOR-Fig_31 GLOR-Fig_314EB; GLOR-Fig_504; CKLR-Fig_554; CKLR-Fig_2554A; CKSR-Fig_2374 CKSR-Fig_374; TKDR-Fig_751 ||] 1101 = ’Aloyco 2’ [GATR-Fig_2110; GATR-Fig_2114 ||] 1125 = ’American Darling 1’ [H3W1-Fig_B-50-B ||] 1130 = ’American DI Pipe’ [PIPE; L; LRB ||] 1150 = ’American Valve 1’ 1175 = ’Amri 1’ 1200 = ’Anaconda 1’ 1225 = ’Anderson Greenwood 1’ 1250 = ’Anvil 1’ 1275 = ’A.O.Smith 1’ 1300 = ’Apollo 1’ 1325 = ’Argus 1’ 1350 = ’Armstrong 1’ [S51AC-Fig_K1SC; S70AC-Fig_2011; S70BC-Fig_2011 ||] 1375 = ’Asahi/American 1’ 1400 1425 1450 1475
638
= = = =
’Babbitt 1’ ’Babcock and Wilcox 1’ ’Badger Meters 1’ ’Bailey Co 1’
________________ Appendix B:
1500 1525 1550 1560 1575
1576
1577
= ’Balon 1’ = ’Basic Engineering 1’ = ’Bestobel 1’ = ’Bete 1’ [SSP1-Series_N ||] = ’Bonney Forge 1’ [GAT-Fig_9HLF-10; GATR-Fig_9H-10; GATR-Fig_9W-10; GATEXB-Fig_VLL-10; GATEXB-Fig_VOLL-10; GLOR-Fig_HL-30; GLOR-Fig_9HL-30; GLOR-Fig_9WL-30; CKLR-Fig_9HL-40; CKLR-Fig_9HL-50; CKLR-Fig_9HL-60; CKLR-Fig_9WL-40; CKLR-Fig_9WL-50; CKLR-Fig_9WL-60; CKLR-Fig_HL-40; CKLR-Fig_9HLF-40; CKLRY-Fig_9Y-40; CKLRY-Fig_25Y-40; CAPOT; UN; L; LRB; SWOL; WOL; SOL; TOL; NOL; EOLLR; EOLSR; LOL ||] = ’Bonney Forge 2’ [GATR-Fig_9H-10; GATR-Fig_25W-10; GLOR-Fig_9HL-30; GLOR-Fig_9WL-30; GLOR-Fig_25W-30; GLOY-Fig_25Y-30; CKLR-Fig_9HL-40; CKLR-Fig_9HL-50; CKLR-Fig_9HL-60; CKLR-Fig_9WL-40; CKLR-Fig_9WL-50; CKLR-Fig_9WL-60 ||] = ’Bonney Forge 3’ [GATF-Fig_H-10; GATF-Fig_W-10; GATR-Fig_HL-10; GATR-Fig_WL-10; CKLR-Fig_HL-40; CKLR-Fig_WL-40 ||] = ’Boots & Coots 1’ [MN1-Spectrum_Allpha_6235 ||] = ’Bray 1’ = ’Brooks Meters 1’
B. Codelists
1585 1590 1600
General Comments
1625 1650 1675 1700 1725 1750 1775 1800 1825 1850 1875 1900
= ’Cameron 1’ = ’Carbone 1’ = ’Ciba-Geigy 1’ = ’Clark Reliance 1’ = ’Clayton Automatic Valves 1’ [CKBP-Model_D; FLO-Series_427-01 ||] = ’Clayton Mark 1’ = ’Clow 1’ = ’Cochrane 1’ = ’Condren 1’ = ’Continental Emsco 1’ = ’Cooper Valve 1’ = ’Crane 1’ [GATF-Fig_3904U; GATR-Fig_424; GATR-Fig_431UB; BALR-Fig_9302; GLOF-Fig_3944U; GLOR-Fig_14 1/2P; GLOR-Fig_70; GLOY-Fig_7189; NEE-Fig_88; CKS-Fig_373;CKLF-Fig_3973U; CKSR-Fig_36; CKSR-Fig_137; FOOT-Fig_394; FOOT-Fig_395; FLWN; FSO; L; LRB ||] 1925 = ’Crosby 1’ 1950 1975 2000 2025 2050 2075 2100 2150 2155 2175
= = = = = = = = = =
’Daniel 1’ ’Demco 1’ ’Dezurik 1’ ’Dixon 1’ ’Dresser 1’ ’Dover 1’ ’DOW 1’ [TRI-Lining_SL; TRI-Lining_PPL, TRI-Lining_KL ||] ’Duo Seal 1’ ’Dur-O-Lock 1’ [CPL ||] ’Durco 1’
2200 2225 2250 2275
= = = =
’Elkhart 1’ ’Enpro 1’ ’Epsco 1’ ’Everest 1’
2300 2325 2350 2375 2400 2425 2450 2475 2500 2525 2550
= = = = = = = = = = =
’Fabri-Valve 1’ [KNF-Fig_36 ||] ’Fairbanks 1’ ’Fasani 1’ ’Fetterolf 1’ ’Fibercast 1’ ’Fike 1’ ’Fisher 1’ ’Flexitallic 1’ ’Flowline 1’ ’FMC 1’ ’Foxboro 1’
639
________________ Reference Data Manager Reference Guide — April 2002
2575 2600 2625 2650 2660 2675 2700 2715 2725 2750
= = = = = = = = = =
’Garlok 1’ ’General 1’ ’Geosource 1’ ’Gestra 1’ ’Gladding McBean 1’ [REDC; E45; E90; M451; M452; L ||] ’Graylock 1’ ’Grinnell 1’ [BALR-Fig_3022; CAPOT; UNO; E45U; E90RST; TOUB; TOUR ||] ’Grinnell Fire Prot 1’ [DEL-Model_A-4; SSP-Mulsifyre-Projector ||] ’Grove 1’ ’Gulf 1’
2775 2800 2825 2850 2860 2875 2900 2915 2925
= = = = = = = = =
’Hammond 1’ ’Hancock 1’ [BDA-Fig_5505W ||] ’Haws 1’ [SSEW1-Fig_8309; SSEW1-Fig 8309CRP ||] ’Heaton 1’ ’Hex 1’ ’Hindle-Hamer 1’ ’Hitachi 1’ ’Hoke 1’ ’Hydril 1’
2950 = ’Imperial Eastman 1’ 2975 = ’Ishida 1’ 2980 = ’ITT 1’ 3000 = ’Jacoby Tarbox 1’ 3025 = ’Jamesbury 1’ [BALR-Style_B; BALSP-Type_530S; BAL3W-Style_AM150FD; BAL3W-Style_DM150FD ||] 3026 = ’Jamesbury 2’ [BALR-Style_A ||] 3027 = ’Jamesbury 3’ [BALR-Type_2000_Brass ||] 3028 = ’Jamesbury 4’ [BALF-Type_4000; BALR-Type_4000 ||] 3050 = ’Jenkins 1’ 3075 = ’Jerguson 1’ 3100 = ’Judd Valve 1’ 3125 3150 3175 3200 3225 3250 3275 3300
= = = = = = = =
’Kamyr-Neles 1’ ’Kemp 1’ ’Kennedy 1’ ’Keystone 1’ ’Kinka Kikai 1’ ’Kitz 1’ ’KTM 1’ ’Kubota 1’
3325 3350 3375 3400 3425
= = = = =
’L & M Valve 1’ ’Ladish 1’ [CAPOT; L; LRB ||] ’Lamons 1’ ’Lukens 1’ ’Lunkenheimer 1’
3445 3450 3475 3500 3525
= ’Mac-Iron 1’ = ’Magnetrol 1’ = ’Malbranque 1’ = ’Maloney 1’ = ’Mark Controls/Centerline 1’ [BFYLP-Series_A; BFYLP-Series_LT; BYFLP-Series_504 ||] 3550 = ’Mark Controls/Flowseal 1’ [BFYHP-Style_1LB ||] 3575 = ’Mark Controls/Marpac 1’ 3600 = ’Mark Controls/Pacific 1’ [GATSP-Fig_21555; GATSP-Fig_55509; GATSP-Fig_5 GLOSP-Fig_56009; GLOSP-Fig_56015; CKSSP-Fig_58809-5-WE; CKSSP-Fig_58815-7-WE; CKST-Fig_160S ||] 3625 = ’Marlin 1’
640
________________ Appendix B:
General Comments
3650 3675 3700 3725 3750 3775
= ’Marwin 1’ = ’Masoneilan 1’ = ’Media 1’ [BFYLP] = ’Milwaukee 1’ = ’Mueller/Muessco Brass 1’ = ’Mueller/Muessco Steam Specialty 1’ [S51AC-Fig_761WE; S51AC-Fig_862BC; S51AC-Fig_762 ||]
3800 3825 3850 3860 3875 3900 3925
= = = = = = =
’Navco 1’ ’Nells 1’ ’Newco 1’ ’Nibco 1’ ’Nicholson 1’ [S78AC-Fig_N302L ||] ’Nippon-Benkan 1’ [BW fittings above 48" ||] ’Nupro 1’
B. Codelists
3950 = ’OPW 1’ 3975 = ’Orbit 1’ 4000 = ’Oseco 1’ 4025 4030 4050 4075 4100 4125 4150 4175 4200 4225 4250 4275 4300 4325
= = = = = = = = = = = = = =
4335 4350 4375 4400 4425
= ’R & G Sloane’ [BALF-Fig_1081; CAPOT; FS; INSR1] = ’Resistoflex 1’ [PIN-Code_R6000D1 ||] = ’Ring-O 1’ = ’Rockwell 1’ [DIA-Type_STD_Unlined ||] = ’Rockwell/Edwards 1’ [GLOA-Fig_849; GLOA-Fig_849Y; GLOYR-Fig_848; GLOYR-Fig_848Y; GLOYR-Fig_1048; GLOYR-Fig_1048Y; CKLRY-Fig_36178; CKLRY-Fig_36278; NEE-Fig_4152; CKST-Fig_302; CKST-Fig_302Y; CKAST-Fig_303 CKAST-Fig_303Y; CKAST-Fig_869; CKAST-Fig_869Y; CKYST-Fig_302; CKYST-Fig_6 BDY-Fig_1641; ||] = ’Rockwell/Edwards 2’ [CKLRY-Fig_832Y; GLOY-Fig_36124; GLOY-Fig_36128; CKLRY-Fig_1032Y; CKAST-Fig_605Y; CKAST-Fig_607Y; BDA-Fig_1643Y ||] = ’Rockwell/Edwards 3’ [GLOY-Fig_7514Y ||] = ’Rockwell/McCanna 1’ [BAL3W-Type_500-3WAY ||] = ’Rockwell/Nordstorm 1’ [PLUVP-Fig_4169; PLU3W-Fig_3813; PLU3W-Fig_4812; PLU3W-Fig_4813; PLU3W-Fig_5115; PLU3W-Fig_5119; PLU3W-Fig_5215; PLU3W-Fig_5219; PLU4W-Fig_3823; PLU4W-Fig_4822; PLU4W-Fig_5125; PLU4W-Fig_5129 ||] = ’R P & C 1’
4426 4427 4450 4475
4500 4520 4522 4525 4550 4575 4600 4625
’Pan Korea 1’ ’Parker CPI 1’ ’Parks Cramer 1’ ’Peabody Dore 1’ ’Penberthy 1’ ’Penn-AirCheck 1’ ’Persta 1’ ’Petrolvalves 1’ ’Posi-Seal 1’ [BFYHP-Model A31; BFYHP-Model A21; BFYHP-Model A11 ||] ’Powhatan 1’ [HOS-No_18-217; HOSA-No_18-157; HRST1-No_30-333 ||] ’Powell 1’ ’Pratt 1’ [BFYLP-Model_PIVA & IBV-FM4; Groundhog ||] ’Premafu 1’ ’Protectoseal 1’
= ’Sarco 1’ = ’Saunders 1’ = ’Sella 1’ = ’Serck Audco 1’ = ’Serfilco 1’ = ’Shoritsu 1’ = ’Smith 1’ [GATF-Fig_888; GATF-Fig_5870; GATR-Fig_800; GATR-Fig_870; GATR-Fig_1500; GATR-Fig_1570; GATEX-Fig_811 & 812 MPE/THD; GATEX-Fig_876
641
________________ Reference Data Manager Reference Guide — April 2002
4626 4650 4675 4700 4725 4750 4751 4752 4753 4775 4800 4825
& 877 MPE/THD; GATEXB-Fig_874 & 875 OLET/THD; GATXBA-Fig_874 & 875 OLET/S GATXBB-Fig_874 & 875 OLET/THD; GLOR-Fig_G80; GLOR-Fig_G87; GLOR-Fig_G150; GLOR-Fig_G157; CKLR-Fig_B80; CKLR-Fig_C80; CKLR-Fig_C150; CKLR-Fig_SB80; CKLR-Fig_SC80 ||] = ’Smith 2’ [GATEX-Fig_813 & 814 MPE/SW; GATEX-Fig_878 & 879 MPE/SW ||] = ’Spraying Systems 1’ = ’Spirax Sarco 1’ = ’Stanco 1’ = ’Standard Fittings 1’ [CAPOT; SWGC; SWGE ||] = ’Stang Hydronics 1’ [M1-Fig BB0309-21 w/shapertip nozzle; ME1-Fig BB3561 = ’Stang Hydronics 2’ [M1-Fig_BB0309-21 w/fog nozzle; ME1-Fig B22999 ||] = ’Stang Hydronics 3’ [ME1-Fig_BB3561 composite, w/monitor nozzle ||] = ’Stang Hydronics 4’ [ME1-Fig_BB3377 composite, w/monitor nozzle ||] = ’Stockham 1’ = ’Strahman 1’ = ’Swagelok 1’
4850 4875 4900 4901 4925 4950 4975 5000 5025 5050 5060 5075 5085 5100 5125 5150 5175 5200
= = = = = = = = = = = = = = = = = =
5225 5250 5275 5300 5325 5350 5375
= ’Valvotecnic 1’ = ’Vanessa 1’ = ’Velan 1’ [S3AC-Fig_N675 ||] = ’Victaulic 1’ = ’Viking 1’ = ’Vitas 1’ = ’Vogt 1’ [GATR-Series_15373; GLOR-Series_15141; CKLR-Series_15701; NEE-Series_22461; NEE-Series_SW22461; CAPOT; UN; E90U; E90ST; L ||]
5400 5425 5450 5475 5500 5525 Fig 5535 5550 5575
= ’Wada 1’ = ’Wallworth 1’ = ’Watts Regulator 1’ = ’Weco 1’ = ’WFI 1’ = ’Winston 1’ [S49AC-T-Strainer Type-59 W/flg’d cover; S53AC-Basket-Strain 51-WIP W/CL150 flg’d cover & 3/4" SWE drain||] = ’Wirt & Knox 1’ = ’WKM 1’ = ’Worcester 1’
’Tapco 1’ ’Taylor 1’ ’Taylor Forge 1’ ’Taylor Forge 2, Rev 1957’ [L; S-STD WT ||] ’Teledyne Farris 1’ ’Texas Bolt 1’ ’Thevignot 1’ ’Titeflex 1’ ’TK 1’ ’TKM 1’ [GAT-Fig_100 ||] ’Top Line 1’ ’Triangle 1’ ’Tri-Clover 1’ ’Truflo 1’ ’TRW/Mission 1’ [||] ’Tubeturn 1’ [FWN; FEWN; FOWNA; FOWNB; CAPBV; E453D; E90LT; E903D; L; SA ’Tufline 1’ ’Tyler 1’ [CPL; REDC; E45LT; E90LT; L ||]
5600 = ’Yarway 1’ [CKAR-Fig_5301; CKAR-Fig_5302; BDA-Fig_6909-C; BDY-Fig_6911-C TKDR-Fig_8106 ||] 5625 = ’Yoneki 1’
642
________________ Appendix B:
General Comments
5650 = ’Zurn 1’ o European practices 1 (DIN) General 7000 = 7001 = 7002 =
7000-11999
Specifications ’DIN 2401-1 Pressure, nominal’ ’DIN 2401-2 Pressure, nominal’ ’DIN 2402 Diameter,nominal’
Pipes = = = = = = = = = = =
’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN
2448’ 2458’ 2440’ 2441’ 2442’ 2445’ 2460’ 2462’ 2463’ 2391’ 2393’
;Steel pipes, seamless ;Steel pipes, welded ;Threaded pipes, medium weight ;Threaded pipes, heavy weight ;Threaded pipes, spec. qualty ;Seamless steel pipes,dyn. load ;Steel pipes for water ;Seamless ferritic steel pipes ;Seamless austenitic steel pipes ;Seamless precision steel tubes ;Welded precision steel tubes
B. Codelists
7010 7011 7012 7013 7014 7015 7016 7017 7018 7019 7020
7025 = ’DIN 2848’ 7026 = ’DIN 2873’
;Flanged lined pipes ;Flanged lined enamelled pipes
7030 = ’DIN 2462’ 7031 = ’DIN 2463’
;Seamless stainless steel tubes ;Welded austenitic steel pipes and tubes
7040 = ’DIN 8062’ 7041 = ’DIN 8077’
;Pipes of unplasticized polyvinyl chlor. ;Polypropylen (PP) pipes
Flanges 7100 = 7101 = 7102 = 7103 = 7104 = 7105 = 7106 = 7107 = 7108 = 7109 = 7110 = 7111 = 7112 = 7113 = 7114 = 7115 = 7116 = 7117 = 7118 = 7119 = 7120 = 7121 = 7122 = 7123 = 7124 = 7125 = 7126 = 7127 = 7128 =
’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN
2530’ 2531’ 2532’ 2533’ 2534’ 2535’ 2543’ 2544’ 2545’ 2546’ 2547’ 2548’ 2549’ 2550’ 2551’ 2558’ 2561’ 2565’ 2566’ 2567’ 2568’ 2569’ 2630’ 2631’ 2632’ 2633’ 2634’ 2635’ 2636’
;Cast iron flanges, PN 2,5 ;Cast iron flanges, PN 6 ;Cast iron flanges, PN 10 ;Cast iron flanges, PN 16 ;Cast iron flanges, PN 25 ;Cast iron flanges, PN 40 ;Cast steel flanges, PN 16 ;Cast steel flanges, PN 25 ;Cast steel flanges, PN 40 ;Cast steel flanges, PN 64 ;Cast steel flanges, PN 100 ;Cast steel flanges, PN 160 ;Cast steel flanges, PN 250 ;Cast steel flanges, PN 320 ;Cast steel flanges, PN 400 ;Plain face oval screwed flange PN 6 ;Oval screwed flange w/ socket PN 10,16 ;Screwed flange PN 6 rund ;Screwed flange PN 10,16 ;Screwed flange PN 25,40 ;Screwed flange PN 64 ;Screwed flange PN 100 ;Welding neck flange PN 1 ;Welding neck flange PN 6 ;Welding neck flange PN 10 ;Welding neck flange PN 16 ;Welding neck flange PN 25 ;Welding neck flange PN 40 ;Welding neck flange PN 64
643
________________ Reference Data Manager Reference Guide — April 2002
7129 7130 7131 7132 7133 7134 7135 7136 7137 7138 7139 7140 7141 7142 7143 7144 7145 7146 7147 7148 7149 7150 7160 7161 7162
= = = = = = = = = = = = = = = = = = = = = = = = =
’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN
2637’ 2638’ 2628’ 2629’ 2627’ 2673’ 2667’ 2668’ 2669’ 2573’ 2576’ 2641’ 2642’ 2652’ 2653’ 2655’ 2656’ 2501’ 2512’ 2512’ 2513’ 2514’ 2527’ 2848’ 2873’
;Welding neck flange PN 100 ;Welding neck flange PN 160 ;Welding neck flange PN 250 ;Welding neck flange PN 320 ;Welding neck flange PN 400 ;Loose flange w/ wldg neck PN 10 ;Loose flange w/ wldg neck PN 160 ;Loose flange w/ wldg neck PN 250 ;Loose flange w/ wldg neck PN 320 ;Flange, soldering or wldg PN 6 ;Flange, soldering or wldg PN 10 ;Flange, lapped, plain collar PN 6 ;Slip-on flange, upturned wldg PN 10 ;Flange, lapped, plain collar PN 6 ;Flange, lapped, plain collar PN 10 ;Flange, lapped, plain collar PN 25 ;Flange, lapped, plain collar PN 40 ;Flanges, Dimensions ;Flanges, tongue & groove ;Rings ;Flanges, projection & recess ;Projection w/ groove & recess ;Flange, blind PN 6,10,16,25,40,64,100 ;Reducing flanges, lined ;Reducing and blind flanges, enamelled
Elbows 7200 = 7201 = 7202 = 7203 = 7204 = 7205 = 7206 =
’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN
2605’ 2606’ 2916’ 2983’ 2987’ 2987’ 2950’
;Tube bends f. butt wldg ;Tube bends, steel 5d ;Bending radii, seaml.& wld pipes ;Threaded steel pipe fittings, bends ;Threaded steel pipe fittings, elbows ;Threaded steel pipe fittings, elbows, reduced ;Malleable cast iron fittings, elbows
’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN
2605-1’ 2605-1’ 2605-1’ 2605-1’ 2605-1’ 2605-2’ 2605-2’ 2605-2’ 2605-2’ 2605-2’
;Elbows, ;Elbows, ;Elbows, ;Elbows, ;Elbows, ;Elbows, ;Elbows, ;Elbows, ;Elbows, ;Elbows,
7210 7211 7212 7213 7214 7215 7216 7217 7218 7219
= = = = = = = = = =
radius radius radius radius radius radius radius radius radius radius
1d, standard 12.85 1.5d, standard 12.85 2.5d, standard 12.85 5d, standard 12.85 10d, standard 12.85 1d, standard 12.85 1.5d, standard 12.85 2.5d, standard 12.85 5d, standard 12.85 10d, standard 12.85
7230 = ’DIN 2848’ 7231 = ’DIN 2873’
;Flanged lined steel fittings, Bends ;Flanged steel fittings enamelled, Bends
7240 = ’DIN 16962’ 7241 = ’DIN 16962’ 7242 = ’DIN 16962’
;Polypropylen (PP) components, Pipe bends B1,B2 ;Polypropylen (PP) components,Elb. W1,W2,part 6 ;Polypropylen (PP) components,Elb.W3,W4,part 10
Reducers 7300 = ’DIN 7301 = ’DIN 7302 = ’DIN 7303 = ’DIN 7304 = ’DIN
644
bend bend bend bend bend bend bend bend bend bend
2616’ 2990’ 2988’ 2950’ 2950’
;Steel fittings, reducers ;Threaded steel pipe fittings, Bushings ;Threaded steel pipe fittings, Reducing sockets ;Malleable cast iron fittings, Reducing sockets ; - " - , male and female connections, Bushings
________________ Appendix B:
General Comments
7310 = ’DIN 2848’ 7311 = ’DIN 2873’
;Flanged lined steel fittings, Reducers ;Flanged steel fittings enamelled, Reducers
7320 7321 7322 7323
16962’ 16962’ 16962’ 16962’
;Polypropylen ;Polypropylen ;Polypropylen ;Polypropylen
2615’ 2618’ 2618’ 2619’ 2987’ 2987’ 2950’
;Butt wldg steel fittings;T ;Welding saddles, short ;Welding saddles, long ;Bends for welding ;Threaded steel fittings;cross;T ;Threaded steel fittings;cross;T;redcd ;Malleable cast iron fittings, Tees, Crosses
= = = =
’DIN ’DIN ’DIN ’DIN
components, components, components, components,
Red. Red. Red. Red.
7410 = ’DIN 2848’ 7411 = ’DIN 2873’
;Flanged lined steel fittings, T ;Flanged steel fittings enamelled, T
7420 7421 7422 7423
;Polypropylen ;Polypropylen ;Polypropylen ;Polypropylen
R1, part 9 NRGI, part 9 R2, part 10 R3, part 11
= = = =
’DIN ’DIN ’DIN ’DIN
16962’ 16962’ 16962’ 16962’
Caps 7500 = ’DIN 2617’ 7501 = ’DIN 2991’ 7502 = ’DIN 2950’ 7510 = ’DIN 16962’ 7511 = ’DIN 16962’ Other 7600 7601 7602 7603 7604 7605 7606
fittings = ’DIN 2981’ = ’DIN 2982’ = ’DIN 2982’ = ’DIN 2986’ = ’DIN 2990’ = ’DIN 2991’ = ’DIN 2993’
7610 = ’DIN 2950’
(PP) (PP) (PP) (PP)
components, components, components, components,
Tee, Tee, Tee, Tee,
B. Codelists
Branches 7400 = ’DIN 7401 = ’DIN 7402 = ’DIN 7403 = ’DIN 7404 = ’DIN 7405 = ’DIN 7406 = ’DIN
(PP) (PP) (PP) (PP)
T1,T5 part 2 T2, part 7 T2G, part 7 T3, part 10
;Butt wldg steel fittings, Caps ;Threaded steel fittings, Caps ;Malleable cast iron fittings, Caps ;Polypropylen (PP) components, Cap K1, part 8 ;Polypropylen (PP) components, Cap K2, part 10
;Threaded ;Threaded ;Threaded ;Threaded ;Threaded ;Threaded ;Threaded
steel steel steel steel steel steel steel
fittings with long screw thread fittings, Parallel Nipples fittings, Taper Nipples fittings, Sockets fittings, Hexagon Nipples fittings, Plain plugs fittings, Pipe unions
;Malleable cast iron fittings, Sockets, Unions, ;Nipples, Plugs etc.
7620 = ’DIN 16962’
;Polypropylen (PP) components, Soc. M1,MGI, p. 8
7630 = ’DIN 2848’ 7631 = ’DIN 2873’
;Flanged lined steel fittings, spacers ;Flanged lined steel fittings enamelled, spacers
Bolts and Nuts 8000 = ’DIN 934’ 8001 = ’DIN 931’ Gaskets 8100 = 8101 = 8102 = 8103 = 8104 = 8105 = 8106 = 8107 =
’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN ’DIN
2690’ 2691’ 2692’ 2693’ 2695’ 2696’ 2697’ 2698’
;Gasket for plain face C ;Gasket for tongue & groove ;Gasket for recessed faces ;Rings for grooved faces ;Diaphragm ;Lenticular gaskets ;Grooved O- rings ;Corrugated steel sheet
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________________ Reference Data Manager Reference Guide — April 2002
Valves 9000 = 9010 = 9020 = 9030 = 9040 = 9050 =
’Non ’DIN ’DIN ’DIN ’DIN ’DIN
conform 3202-F’ 3202-S’ 3202-K’ 3202-M’ 3202-F’
DIN 3202’ ; Teil 1 ; Teil 2 ; Teil 3 ; Teil 4 ; Teil 5
Dummy standard 9999 = ’Dummy DIN Std’
; Used for engineered items and instruments
British Standards geometry standards 12000-16999 sub ranges (provisional) :12000-12099 pipes 12100-12199 flanges 12200-12599 fittings 12600-12999 valves 13000-13199 bolts 13200-13499 gaskets PIPES 12000 12001 12002 12003 12004
= = = = =
’BS3600 ’BS3600 ’BS3600 ’BS3600 ’BS3600
table table table table table
1 2 3 4 5
carbon and low alloy steel tubes’ austenitic stainless steel tubes’ high alloy ferritic steel tubes’ cs tubes for compression fitting - tbi’ ss tubes for compression fitting - tbi’
12010 = ’BS1387 tables 3,4 and 5 light,medium and heavy’ 12015 = ’BS1600 part 2 steel pipe for petroleum industry’ FLANGES 12100 = ’BS4504 p1 steel flanges for pipe,valves and fittings’ 12101 = ’BS4504 p1 iron flanges for pipe,valves and fittings - tbi’ 12110 = ’BS1560 p2 steel pipe flanges Metric dimensions’ FITTINGS 12200 12210 12220 12221 12230
= = = = =
’BS1740 ’BS1965 ’BS3799 ’BS3799 ’BS1640
part 1 screwed wrought steel pipe fittings ’ part 1 butt welding pipe fittings - CS’ steel pipe fittings screwed and socket welding (mm)’ steel pipe fittings screwed and socket welding (in)’ part 3/4 steel butt-welding pipe fittings ’
= = = = = = = = = = = =
’BS2080 flanged ’BS5150’ ’BS5151’ ’BS5152’ ’BS5153’ ’BS5154’ ’BS5155’ ’BS5155 and app ’BS5156’ ’BS5156 and app ’BS5157’ ’BS5157 and app
VALVES 12600 12620 12625 12630 12635 12640 12645 12646 12650 12651 12655 12656
646
and butt-welded steel valves’
A’ A’ A’
________________ Appendix B:
12660 12661 12665 12666 12670 12671
= = = = = =
General Comments
’BS5158’ ’BS5158 and app A’ ’BS5159’ ’BS5159 and app A’ ’BS5160’ ’BS5160 and app A’
gaskets 13001 = ’BS4865:part 1 - non-metallic for BS4504 flanges’ 13002 = ’BS4865:part 2 - spiral wound for BS4504 flanges’ 13010 = ’BS3381 - spiral wound for BS1560 flanges’
dummy 13999 = ’dummy BS code’
CL576, Table Suffix/End Standard - Green (999)
B. Codelists
bolting 13200 = ’BS4882 metric series bolting’ 13210 = ’BS4882 inch series bolting’
NOTE: Codelist numbers have been reserved as follows: o US practices 2-99 o European practices 1 (DIN) 100-199 o European practices 2 (British) 200-299 o European practices 3 (Finnish, French, etc. 300-399 o International practices 1 (JIS) 400-499 o International practices 2 (Australian, etc.) 500-599 o Company practices 900-999 1 = [Blank] US Practice Table Suffixes, 2-99 5 = ’Default’ [See below for definition] 6 = ’PDS-1’ [See specific table for details] 7 = ’PDS-2’ [See specific table for details] 8 = ’PDS-3’ [See specific table for details] 10 = ’ID Duct’ [Nominal diameter based on inside diameter] 12 15 22 23 24 29 30 33 37
= = = = = = = = =
’ANSI-B16.12’ ’ANSI-B16.15’ ’ANSI-B16.22’ ’ANSI-B16.23’ ’ANSI-B16.24’ ’ANSI-B16.36’ ’ANSI-B16.42’ ’ANSI-B1.20.3’ ’ANSI-B1.20.7’
[Cast iron drainage fittings] [Cast bronze fittings] [Copper solder joint pressure fittings] [Copper solder joint drainage fittings] [Bronze flanges] [Orifice flanges] [Ductile iron flanges and fittings] [Dryseal pipe threads] [Hose coupling screw threads]
40 = ’ASME BPE-97 (PE)’ 41 = ’ASME BPE-97 (MCE)’ 45 = ’ASTM-A74’ 46 = ’ASTM-C76’ 47 = ’ASTM-C700’
[Cast iron S-XH soil pipe and fittings] [Reinforced Concrete Culvert, Storm Drain and Sewer Pipe] [Extra Strength and Standard Strength Clay Pipe and Perfor Clay Pipe]
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________________ Reference Data Manager Reference Guide — April 2002
49 50 55 60
= = = =
’AWWA-C110’ [Iron fittings] ’AWWA-C115’ [Iron pipe and fittings] ’AWWA-C151’ [Ductile iron pipe] ’AWWA-C207 Cl.B & D, ring’ [Steel slip-on flanges CL86, CL150, CL175] 61 = ’AWWA-C207 Cl.B & D, hub’ [Steel slip-on flanges CL86, CL150, CL175] 62 = ’AWWA-C207 Cl.E, hub’ [Steel slip-on flanges CL275] 70 = ’API-5LE’ 75 = ’API-6A’ 79 = ’API-605-B’ 80 = ’MSS-SP-44-NB’ 81 = ’MSS-SP-44-B’ 85 86 87 88 90 91 92 93 94 95 96 97 98 99
= = = = = = = = = = = = = =
[Polyethylene fittings] [Wellhead flanges and fittings] [API-605 blind flanges. These are based on API-605 flange bolt diameters and MSS-SP44 flange thicknesses] [MSS non-blind flanges] [MSS blind flanges]
’Crosby’ ’Consolidated’ ’Lonergan’ ’Top Line’ ’Tube-Turn’ ’Dow’ ’Aloyco’ ’Yarway’ ’Teledyne Farris 1’ ’R & G Sloane’ ’American DI Pipe’ ’Gladding McBean’ [Vitrified clay S-XS pipe and fittings] ’Taylor Forge’ ’Vendor 4’
CL No. 5 is used to define the "Default for end type", which represents the basis on which most US-practice generic piping tables for dimensional parameters will bedefined. The system will default to table suffix "5" when dimensions from a male termination type table are required in defining the component but the component ends are other than male termination. The basis for this table suffix will be as follows: End Termination Type Basis for Table Values Flat-face flanged.................ANSI-B16.1 or B16.5 Raised-face flanged...............ANSI-B16.1, B16.5, API-605 or MSS-SP-42, in this order of precedence RTJ-face flanged..................ANSI-B16.5 Tongue/male-face flanged..........ANSI-B16.5 Groove/female-face flanged........ANSI-B16.5 Flat-face lap-flanged.............ANSI-B16.5 with stub end thickness ignored. Raised-face lap-flanged...........ANSI-B16.5 with stub end thickness ignored. RTJ-face lap-flanged..............ANSI-B16.5 with stub end thickness ignored. Tongue/male-face lap-flanged......ANSI-B16.5 with stub end thickness ignored.
648
________________ Appendix B:
General Comments
Groove/female-face lap-flanged....ANSI-B16.5 with stub end thickness ignored.
All thru-bolted...................For sizes and ratings for which API-590 applie the value of parameter "P" shall be taken from API-590. For sizes and ratings for which APIdoes not apply, the bolt circle diameter from ANSI-B16.1, B16.5, API-605 or MSS-SP-42, in th order of precendence, less one bolt diameter l 1/8 inch will be used for parameter "P". Male RTJ-face thru-bolted with cap screws........................None Flat-face thru-bolted with cap screws........................None Raised-face thru-bolted with cap screws........................None
Flat-full-face thru-bolted........DOW
B. Codelists
RTJ-face thru-bolted with cap screws........................None
Male..............................ANSI-B36.10M, ANSI-B36-19M, API-5L, API-5LE, API-5LP, API-5LS or API-5LU PVC & CPVC socket.................API-5LP, ASTM-D2466 or ASTM-D2467
Socketwelded......................For pressure ratings XXXX#s, per basis defined in the applicable generic tables; for pressure ratings CLXXXXs and OTXXXXs, per ANSI-B16.11 and ANSI-B16.5. Female threaded
thread engagement per Table 2.4 of 2630-33 ..................................Forged steel.For pressure ratings XXXX#s, defined in the applicable generic tables; for pressure ratings CLXXXXs and OTXXXXs, per ANSI and ANSI-B16.5. In all cases, thread engageme will be per Table 2.4 of 2630-33 descriptions in the applicable generic tables. In all cases, thread engagement will be per Table 2.4 of 2630-33 Female grooved....................Victaulic catalog G100E Female quick connect.............. Female ferrule.................... Female hose....................... Mechanical joint bell.............AWWA-C110 Gasket............................Not applicable Bolt..............................Not applicable Nut...............................Not applicable User defined......................None o European practices 1 (DIN)
100-199
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________________ Reference Data Manager Reference Guide — April 2002
Codelist numbers used for DIN European practice Generic dimension data select flag access starts here 105 = ’Gen blt & fem end prep dim’ 111 112 113 114 115 116 117 118 119
= = = = = = = = =
’Blt ’Blt ’Blt ’Blt ’Blt ’Blt ’Blt ’Blt ’Blt
dim dim dim dim dim dim dim dim dim
for for for for for for lap for for
cast steel flanges’ cast iron flanges’ oval screwed flanges’ screwed flanges’ sold & weld flanges’ lap flanges’ flanges w/ plain collars’ loose flanges w/ weld neck’ loose flanges in enamelled componnents’
125 = ’OD acc to DIN 2631 Reihe 1’ 126 = ’OD acc to DIN 2631 Reihe 2’ 129 = ’OD for plastic pipes’ 130 131 132 133 134
= = = = =
’OD ’OD ’OD ’OD ’OD
acc acc acc acc acc
to to to to to
DIN DIN DIN DIN DIN
2445-1 2445-1 2445-1 2445-1 2445-1
PN PN PN PN PN
100’ 160’ 250’ 320’ 400’
140 141 142 143 144
= = = = =
’OD ’OD ’OD ’OD ’OD
acc acc acc acc acc
to to to to to
DIN DIN DIN DIN DIN
2445-2 2445-2 2445-2 2445-2 2445-2
PN PN PN PN PN
64-100’ 160’ 250’ 320’ 400’
150 = ’OD acc to DIN 2391’ 160 = ’OD acc to DIN 2393’ 170 = ’OD acc to DIN 2440’ 171 = ’OD acc to DIN 2441’ 179 = ’OD for threaded components’ British Standards 205 = ’default metric’ 206 = ’default converted imperial’ 210 = ’plate flanges BS4504’
CL577, Table Suffix/End Standard - Red (999) NOTE: Codelist numbers have been reserved as follows: o US practices 2-99 o European practices 1 (DIN) 100-199 o European practices 2 (British) 200-299 o European practices 3 (Finnish, French, etc. 300-399 o International practices 1 (JIS) 400-499 o International practices 2 (Australian, etc.) 500-599 o Company practices 900-999
650
________________ Appendix B:
General Comments
1 = [Blank] US Practice Table Suffixes, 2-99 5 = ’Default’ [See below for definition] 6 = ’PDS-1’ [See specific table for details] 7 = ’PDS-2’ [See specific table for details] 8 = ’PDS-3’ [See specific table for details] 10 = ’ID Duct’ [Nominal diameter based on inside diameter] = = = = = = = = =
’ANSI-B16.12’ ’ANSI-B16.15’ ’ANSI-B16.22’ ’ANSI-B16.23’ ’ANSI-B16.24’ ’ANSI-B16.36’ ’ANSI-B16.42’ ’ANSI-B1.20.3’ ’ANSI-B1.20.7’
[Cast iron drainage fittings] [Cast bronze fittings] [Copper solder joint pressure fittings] [Copper solder joint drainage fittings] [Bronze flanges] [Orifice flanges] [Ductile iron flanges and fittings] [Dryseal pipe threads] [Hose coupling screw threads]
40 = ’ASME BPE-97 (PE)’ 41 = ’ASME BPE-97 (MCE)’ 45 = ’ASTM-A74’ 46 = ’ASTM-C76’ 47 = ’ASTM-C700’
49 50 55 60
B. Codelists
12 15 22 23 24 29 30 33 37
[Cast iron S-XH soil pipe and fittings] [Reinforced Concrete Culvert, Storm Drain and Sewer Pipe] [Extra Strength and Standard Strength Clay Pipe and Perfor Clay Pipe]
= = = =
’AWWA-C110’ [Iron fittings] ’AWWA-C115’ [Iron pipe and fittings] ’AWWA-C151’ [Ductile iron pipe] ’AWWA-C207 Cl.B & D, ring’ [Steel slip-on flanges CL86, CL150, CL175] 61 = ’AWWA-C207 Cl.B & D, hub’ [Steel slip-on flanges CL86, CL150, CL175] 62 = ’AWWA-C207 Cl.E, hub’ [Steel slip-on flanges CL275] 70 = ’API-5LE’ 75 = ’API-6A’ 79 = ’API-605-B’ 80 = ’MSS-SP-44-NB’ 81 = ’MSS-SP-44-B’ 85 86 87 90 91 92 93 94 95 96 97 98 99
= = = = = = = = = = = = =
[Polyethylene fittings] [Wellhead flanges and fittings] [API-605 blind flanges. These are based on API-605 flange bolt diameters and MSS-SP44 flange thicknesses] [MSS non-blind flanges] [MSS blind flanges]
’Crosby’ ’Consolidated’ ’Lonergan’ ’Tube-Turn’ ’Dow’ ’Aloyco’ ’Yarway’ ’Teledyne Farris 1’ ’R & G Sloane’ ’American DI Pipe’ ’Gladding McBean’ [Vitrified clay S-XS pipe and fittings] ’Taylor Forge’ ’Vendor 4’
CL No. 5 is used to define the "Default for end type", which represents the basis on which most US-practice generic piping tables for dimensional parameters will bedefined. The system will default to table suffix "5" when dimensions from a male termination type
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________________ Reference Data Manager Reference Guide — April 2002
table are required in defining the component but the component ends are other than male termination. The basis for this table suffix will be as follows: End Termination Type Basis for Table Values Flat-face flanged.................ANSI-B16.1 or B16.5 Raised-face flanged...............ANSI-B16.1, B16.5, API-605 or MSS-SP-42, in this order of precedence RTJ-face flanged..................ANSI-B16.5 Tongue/male-face flanged..........ANSI-B16.5 Groove/female-face flanged........ANSI-B16.5 Flat-face lap-flanged.............ANSI-B16.5 with stub end thickness ignored. Raised-face lap-flanged...........ANSI-B16.5 with stub end thickness ignored. RTJ-face lap-flanged..............ANSI-B16.5 with stub end thickness ignored. Tongue/male-face lap-flanged......ANSI-B16.5 with stub end thickness ignored. Groove/female-face lap-flanged....ANSI-B16.5 with stub end thickness ignored.
All thru-bolted...................For sizes and ratings for which API-590 applie the value of parameter "P" shall be taken from API-590. For sizes and ratings for which APIdoes not apply, the bolt circle diameter from ANSI-B16.1, B16.5, API-605 or MSS-SP-42, in th order of precendence, less one bolt diameter l 1/8 inch will be used for parameter "P". Male RTJ-face thru-bolted with cap screws........................None Flat-face thru-bolted with cap screws........................None Raised-face thru-bolted with cap screws........................None RTJ-face thru-bolted with cap screws........................None Flat-full-face thru-bolted........DOW Male..............................ANSI-B36.10M, ANSI-B36-19M, API-5L, API-5LE, API-5LP, API-5LS or API-5LU PVC & CPVC socket.................API-5LP, ASTM-D2466 or ASTM-D2467
Socketwelded......................For pressure ratings XXXX#s, per basis defined in the applicable generic tables; for pressure ratings CLXXXXs and OTXXXXs, per ANSI-B16.11 and ANSI-B16.5. Female threaded
thread engagement per Table 2.4 of 2630-33 ..................................Forged steel.For pressure ratings XXXX#s, defined in the applicable generic tables; for
652
________________ Appendix B:
General Comments
pressure ratings CLXXXXs and OTXXXXs, per ANSI and ANSI-B16.5. In all cases, thread engageme will be per Table 2.4 of 2630-33 descriptions in the applicable generic tables. In all cases, thread engagement will be per Table 2.4 of 2630-33 Female grooved....................Victaulic catalog G100E Female quick connect.............. Female ferrule.................... Female hose.......................
B. Codelists
Mechanical joint bell.............AWWA-C110 Gasket............................Not applicable Bolt..............................Not applicable Nut...............................Not applicable User defined......................None o European practices 1 (DIN)
100-199
Codelist numbers used for DIN European practice Generic dimension data select flag access starts here 105 = ’Gen blt & fem end prep dim’ 111 112 113 114 115 116 117 118 119
= = = = = = = = =
’Blt ’Blt ’Blt ’Blt ’Blt ’Blt ’Blt ’Blt ’Blt
dim dim dim dim dim dim dim dim dim
for for for for for for lap for for
cast steel flanges’ cast iron flanges’ oval screwed flanges’ screwed flanges’ sold & weld flanges’ lap flanges’ flanges w/ plain collars’ loose flanges w/ weld neck’ loose flanges in enamelled componnents’
125 = ’OD acc to DIN 2631 Reihe 1’ 126 = ’OD acc to DIN 2631 Reihe 2’ 129 = ’OD for plastic pipes’ 130 131 132 133 134
= = = = =
’OD ’OD ’OD ’OD ’OD
acc acc acc acc acc
to to to to to
DIN DIN DIN DIN DIN
2445-1 2445-1 2445-1 2445-1 2445-1
PN PN PN PN PN
100’ 160’ 250’ 320’ 400’
140 141 142 143 144
= = = = =
’OD ’OD ’OD ’OD ’OD
acc acc acc acc acc
to to to to to
DIN DIN DIN DIN DIN
2445-2 2445-2 2445-2 2445-2 2445-2
PN PN PN PN PN
64-100’ 160’ 250’ 320’ 400’
150 = ’OD acc to DIN 2391’
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________________ Reference Data Manager Reference Guide — April 2002
160 = ’OD acc to DIN 2393’ 170 = ’OD acc to DIN 2440’ 171 = ’OD acc to DIN 2441’ 179 = ’OD for threaded components’ 181 182 183 184 185
= = = = =
’Wallthickness ’Wallthickness ’Wallthickness ’Wallthickness ’Wallthickness
Reihe Reihe Reihe Reihe Reihe
1’ 2’ 3’ 4’ 5’
191 192 193 194 195
= = = = =
’Wallthickness ’Wallthickness ’Wallthickness ’Wallthickness ’Wallthickness
selection selection selection selection selection
1’ 2’ 3’ 4’ 5’
British Standards 205 = ’default metric’ 206 = ’default converted imperial’ 210 = ’plate flanges BS4504’
CL578, Weight Code (399) NOTE: Codelist numbers 2-99 have been reserved for values that apply to US practices. Codelist numbers 100-399 have been reserved for values that apply to practices in other countries. 1 = [Blank] US Practice Weight Codes, 2-99 9 = ’35 pcf’ [Vitrified clay] 10 = ’57 pcf’ [Polypropylene] 16 = ’88 pcf’ [PVC] 22 = ’97 pcf’ [CPVC] 28 = ’111 pcf’ [FRP, Kynar] 30 = ’150 pcf’ [Reinforced concrete pipe] 34 = ’165 pcf’ [Aluminum] 40 = ’260 pcf’ [Titanium] 46 = ’450 pcf’ [Iron] 47 = ’450 pcf’ [Standard thk cement linin, ductile iron] 48 = ’450 pcf’ [Double thk cement lining ductile iron] 52 = ’490 pcf’ [Carbon steel, low Cr alloy steel, stainless steel] 58 = ’490 pcf’ [Cement lined carbon steel] 64 = ’525 pcf’ [Brass, Inconel] 70 = ’555 pcf’ [Bronze, copper, Monel, nickel] 76 = ’570 pcf’ [Hastelloy] European Practice Weight Codes, 101-199 101 = [Blank] 111 112 113 114 115
654
= = = = =
’Weight ’Weight ’Weight ’Weight ’Weight
selection selection selection selection selection
flag flag flag flag flag
1’ 2’ 3’ 4’ 5’
________________ Appendix B:
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
’1’ ’2’ ’3’ ’4’ ’5’ ’6’ ’7’ ’8’ ’9’ ’10’ ’11’ ’12’ ’13’ ’14’ ’15’ ’16’ ’17’ ’18’ ’19’ ’-’ ’21’ ’-’ ’-’ ’-’ ’-’ ’-’ ’-’ ’-’ ’-’ ’-’ ’31’ ’32’ ’33’ ’34’ ’-’ ’36’ ’-’ ’-’ ’-’
[Acc. to DIN 3202-F1/K1/V1] [Acc. to DIN 3202-F2/S2/K2/M2/V2] [Acc. to DIN 3202-F3/S3/K3/M3] [Acc. to DIN 3202-F4/K4/M4] [Acc. to DIN 3202-F5/S5/K5/M5] [Acc. to DIN 3202-F6/M6] [Acc. to DIN 3202-F7/S7] [Acc. to DIN 3202-F8/S8/M8] [Acc. to DIN 3202-F9/S9/M9] [Acc. to DIN 3202-S10/M10] [Acc. to DIN 3202-F11/M11] [Acc. to DIN 3202-S12] [Acc. to DIN 3202-S13] [Acc. to DIN 3202-S14/M14] [Acc. to DIN 3202-F15/M15] [Acc. to DIN 3202-F16] [Acc. to DIN 3202-F17] [Acc. to DIN 3202-F18] [Acc. to DIN 3202-F19] [Not existent under DIN 3202] [Acc. to DIN 3202-V21] [Not existent under DIN 3202] [Not existent under DIN 3202] [Not existent under DIN 3202] [Not existent under DIN 3202] [Not existent under DIN 3202] [Not existent under DIN 3202] [Not existent under DIN 3202] [Not existent under DIN 3202] [Not existent under DIN 3202] [Acc. to DIN 3202-S31] [Acc. to DIN 3202-F32/M32] [Acc. to DIN 3202-F33/M33] [Acc. to DIN 3202-F34] [Not existent under DIN 3202] [Acc. to DIN 3202-M36] [Not existent under DIN 3202] [Not existent under DIN 3202] [Not existent under DIN 3202]
B. Codelists
131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169
General Comments
British Standards numbers (200-299) units kg per cubic metre 201 = [Blank] 209 210 216 222 228 230 234 240 246 247 248 252 253 254 258 264 270 276
= = = = = = = = = = = = = = = = = =
’561 km3’ ’913 km3’ ’1410 km3’ ’1554 km3’ ’1778 km3’ ’2403 km3’ ’2643 km3’ ’4165 km3’ ’7208 km3’ ’7208 km3’ ’7208 km3’ ’7849 km3’ ’7849 km3’ ’7849 km3’ ’7849 km3’ ’8410 km3’ ’8890 km3’ ’9130 km3’
[polypropylene] [pvc] [cpvc] [FRP, Kynar] [Aluminium] [Titanium] [Iron]
[CS] [low alloy st] [SS] [8mm thk cement lined CS] [Brass, Inconel] [Bronze, copper, Monel, Nickel] [Hastelloy]
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________________ Reference Data Manager Reference Guide — April 2002
CL990, Types of Piping Commodity Data Forms 1 2 3 4 5 21 41 42 61 62 63
= = = = = = = = = = =
’General Fittings’ ’Pipe Bends ’ ’Orifice Flanges ’ ’Branch Nipples ’ ’Branch Reinforcement’ ’Valves ’ ’Piping ’ ’Tubing ’ ’Gaskets ’ ’Bolts ’ ’Nuts ’
100 - 299 values are for Piping Specialties 100 - 149 range of values are for specific specialties 150 - 199 range of values are for typical specialties 200 - 249 range of values are for specific valves 250 - 299 range of values are for typical valves 100 150 200 250
= = = =
’Specific - General ’Typical - General ’Specific - Valve ’Typical - Valve
’ ’ ’ ’
300 - 499 values are for Instruments 300 - 349 range of values are for 350 - 399 range of values are for 400 - 449 range of values are for 450 - 499 range of values are for 300 350 400 450
= = = =
’Specific - General ’Typical - General ’Specific - Valve ’Typical - Valve
specific instruments typical instruments specific valves typical values
’ ’ ’ ’
CL999, Standard Note Title (2000) NOTE: In editing this codelist set, do not change the meaning of existing codelist values. 1 = [Blank] 31 = ’Object Types for Mass Annotation’ 35 = ’Approval Status’ 36 = ’Structural Approval Status’ 37 = ’HVAC Approval Status’ 50 = ’Hold Status’ 69 = ’Equipment Division’ 125 = ’Fluid Code’ 130 = ’Construction Status’ 145 = ’Materials Grade’ 148 = ’Materials Description’ 160 = ’Responsibility’ 180 = ’Fabrication Category’ 190 = ’Coating Requirements’ 200 = ’Heat Tracing Requirements’ 210 = ’Heat Tracing Media’ 220 = ’Insulation Purpose’ 230 = ’Cleaning Requirements’
656
________________ Appendix B:
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
’End Preparation’ ’Schedule / Thickness Override’ ’Safety Classification’ ’Stress Analysis Requirements’ ’Reporting Requirements’ ’Requirement to Reconstruct’ ’Piping Component Type’ ’Action’ ’Commodity Option’ ’Piping Component Data Source’ ’Piping/Tubing Type/Source’ ’Instrument Component Data Source’ ’Piping Notes’ ’Accessory / Item Type’ ’Operator / Actuator Type’ ’Design Standard’ ’Wall Thickness Equation’ ’Geometry Standard’ ’Table Suffix / End Standard - Green’ ’Table Suffix / End Standard - Red’ ’Weight Code’ ’Spec Writer Data Form Type’ ’Standard Note Title’ ’Area Units’ ’Weight Units’ ’Temperature Units’ ’Pressure Units’ ’Density Units’ ’Weld Type’ ’Force Units’ ’Drawing Scale’ ’Drawing Size’ ’Interference Manager Approval Status’ ’Interference Clash Type’ ’Interference Manager Action’ ’Interference Manager Approval Method’ ’Clash Checking Option’ ’Clash Checking Volume Filter Option’ ’Report Source’ ’Report Type’ ’Design Review Type’ ’Model Status’ ’Force Units for FrameWorks Plus’ ’Drawing View Direction’ ’Drawing View Composition Status’ ’Document Type’ ’Document Sub-Type’ ’Isometric Drawing Type’ ’Orthographic Drawing Type’
B. Codelists
330 332 340 360 365 366 380 390 400 420 425 430 499 530 550 570 572 575 576 577 578 990 999 1010 1028 1056 1064 1074 1100 1162 1201 1202 1203 1204 1205 1207 1208 1209 1310 1312 1410 1605 1610 1620 1630 1710 1720 1900 2000
General Comments
CL1010, Area Units (25) No 1 3 5 7 10 12 14
Unit Name ftˆ2 inˆ2 ydˆ2 miˆ2 mmˆ2 cmˆ2 mˆ2
Convert to Destination Unit Dest. Unit Factor mˆ2 9.290 304* E-02 cmˆ2 6.451 6* E+00 mˆ2 8.361 274 E-01 kmˆ2 2.589 988 E+00 mmˆ2 1 mmˆ2 1.0* E+02 cmˆ2 1.0* E+04
Convert To First Unit A B 0.0 1.0* 0.0 6.944 0.0 9.0* 0.0 2.787 0.0 1.076 0.0 1.076 0.0 1.076
657
in CL E+00 444 E-03 E+00 840 E+07 391 E-05 391 E-03 391 E+01
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16 25
kmˆ2 [Blank]
mˆ2 —
1.0* —
E+06 0.0 -9999.
1.076 391 E+07 -9999.
CL1028, Mass Units (40) No 1 3 9 11 20 22 24 26 28 40
Unit Name lb grain USton UKton (Mu)g mg g kg Mg [Blank]
Convert to Destination Unit Convert To First Unit in Dest. Unit Factor A B kg 4.535 924 E-01 0.0 1.0* mg 6.479 891 E+01 0.0 1.428 571 Mg 9.071 847 E-01 0.0 2.0* Mg 1.016 047 E+00 0.0 2.24* (Mu)g 1 0.0 2.204 622 mg 1 0.0 2.204 622 g 1 0.0 2.204 622 kg 1 0.0 2.204 622 Mg 1 0.0 2.204 622 — — -9999. -9999.
CL E+00 E-04 E+03 E+03 E-09 E-06 E-03 E+00 E+03
CL1056, Temperature Units (15) No 1 2 3 4 15
Unit Name degF degC degR K [Blank]
Convert to Destination Unit Convert To Dest. Unit Factor A degC (degF - 32)/1.8 0.0 degC 1 +3.2* K 5/9 -4.596 900 K 1 -4.596 900 — — -9999.
First Unit in CL B 1.0* E+00 E+01 1.8* E+00 E+02 0.0* E+00 E+02 1.8* E+00 -9999.
CL1064, Pressure Units (40) NOTE: New entries in this codelist cannot be added by the user. Changes will NOT be recognized unless the software is changed to use them. Convert to Destination Unit Convert To No Unit Name Dest. Unit Factor A 1 psig [gage] kPa 0.0 2 psi [absolute] kPa 6.894 757 E+00 -1.469 595 4 inH2O [absolute] kPa 2.488 4 E-01 -1.469 595 6 inH2O @ 32degF kPa 2.491 14 E-01 -1.469 595 7 inHg [absolute] kPa 3.376 85 E+00 -1.469 595 8 mmHg [absolute] kPa 1.333 22 E-01 -1.469 595 9 atm [absolute] kPa 1.013 250* E+02 -1.469 595 10 bar [absolute] kPa 1.0* E+02 -1.469 595 11 bar (gage) [gage] psig 1.450 377 E+01 0.0 13 dyn/cmˆ2 [absolute] Pa 1.0* E-01 -1.469 595 15 mmH2O [absolute] kPa 9.806 38 E-03 -1.469 595 16 inHg @ 32degF kPa 3.386 38 E+00 -1.469 595 17 kPa [absolute] kPa 1 -1.469 595 18 MPa [absolute] kPa 1.0* E+03 -1.469 595 19 Pa [absolute] Pa 1 -1.469 595 20 kg/cm*2 (gage) [gage] psig 1.422 334 E+01 0.0 21 kg/cm*2 [absolute] kPa 9.806 65 E+01 -1.469 595 22 Mpa_g psig 1.450 377 E+02 0.0 40 [Blank] — — -9999. 67 kPa_g psig 1.450 377 E-01 0.0
658
First Unit in CL B 1.0* E+ E+01 1.0* E+00 E+01 3.609 119 E-02 E+01 3.613 010 E-02 E+01 4.897 707 E-01 E+01 1.933 672 E-02 E+01 1.469 595 E+01 E+01 1.450 377 E+01 1.450 377 E+01 E+01 1.450 377 E-05 E+01 1.422 295 E-03 E+01 4.911 054 E-01 E+01 1.450 377 E-01 E+01 1.450 377 E+02 E+01 1.450 377 E-04 1.422 334 E+01 E+01 1.422 334 E+01 1.450 377 E+02 -9999. 1.450 377 E-01
________________ Appendix B:
General Comments
CL1074, Density Units (35) Unit Name lb/ftˆ3 lb/UKgal lb/USgal kip/ftˆ3 lb/inˆ3 USton/ftˆ3 degAPI kg/mˆ3 g/cmˆ3 kg/L kg/dmˆ3 [Blank]
Convert to Destination Unit Convert To First Unit in CL Dest. Unit Factor A B kg/mˆ3 1.601 846 E+01 0.0 1.0* E+00 kg/mˆ3 9.977 633 E+01 0.0 6.228 834 E+00 kg/mˆ3 1.198 264 E+02 0.0 7.480 519 E+00 kg/mˆ3 1.601 846 E+04 0.0 1.0* E+03 kg/mˆ3 2.767 990 E+04 0.0 1.728 000 E+03 kg/mˆ3 3.203 692 E+04 0.0 2.0* E+03 kg/mˆ3 Use API2564 Tbl -9999. -9999. kg/mˆ3 1 0.0 6.242 797 E-02 kg/dmˆ3 1 0.0 6.242 797 E+01 kg/mˆ3 1.0* E+03 0.0 6.242 797 E+01 kg/mˆ3 1 E+03 0.0 6.242 797 E+01 — — -9999. -9999.
B. Codelists
No 1 3 5 7 9 11 17 20 22 24 26 35
CL1100, Weld Type (100)
NOTE: Codelist numbers 0-19 have been reserved for shop welds, numbers 20-29 have been reserved for field welds, and 30-39 have been reserved for offshore welds. In editing this codelist set, do not change the meaning of existing codelist values. 1 2 11 21 22 23 24
= = = = = = =
[Blank] ’Pipe connector’ ’Shop weld’ ’Field weld at assembly site’ ’Field weld at job site’ ’Field weld at job site for loose flange’ ’Field fit weld at job site’
CL1162, Force Units (40) 1 3 5 7 20 22 24 26 28 40
= = = = = = = = = =
’lbf’ ’kipf’ ’UStonf’ ’UKtonf’ ’dyn’ ’mN’ ’N’ ’kgf’ ’kN’ [Blank]
CL1201, Drawing Scale (540) (1-499) English System of Units 1 = [Blank] 104 = ’=1/8"= 1’ 0"’ 108 = ’=1/4"= 1’ 0"’ 112 = ’=3/8"= 1’ 0"’ 116 = ’=1/2"= 1’ 0"’ 124 = ’=3/4"= 1’ 0"’ 132 = ’=1"= 1’ 0"’ 164 = ’=2"= 1’ 0"’
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(500-599) Metric System of Units 500 = ’1:10’ 510 = ’1:4’ 530 = ’1:2’ 540 = ’1:1’
CL1202, Drawing Size (199) (1-99) English System of Units 1 = ’A’ 2 = ’B’ 3 = ’C’ 4 = ’D’ 5 = ’E’ 6 = ’F’ (100-199) Metric System of Units 101 = ’A0’ 102 = ’A1’ 103 = ’A2’ 104 = ’A3’ 105 = ’A4’
CL1203, Interference Manager Approval Status (99) 1 = ’Unapproved’ 2 = ’Approved’ 99 = ’Cleared’
[User has approved clash] [Software detected that clash has been fixed]
CL1204, Interference Clash Type (10) 1 2 3 4 5 6
= = = = = =
’Hard versus Hard’ ’Hard versus Soft’ ’Hard versus Construction’ ’Soft versus Soft’ ’Soft versus Construction’ ’Construct vs Construct=Construction versus Construction’
CL1205, Interference Manager Action (10) 1 2 3 4
660
= = = =
’No Action by user’ ’Approve Real Clash’ ’Approve False Clash’ ’Transfer Responsibility’
________________ Appendix B:
General Comments
CL1207, Interference Manager Approval Method (10) 1 = ’Not Approved’ 2 = ’Accepted by Graphical Review’ 3 = ’Accepted from List’
CL1208, Clash Checking Option = = = =
’Unknown’ ’Project Mode’ ’Design Area Mode’ ’Pre-defined Volume Mode’
CL1209, Clash Checking Volume Filter Option 1 = ’Volume Filter Is Inactive’ 2 = ’Volume Filter Is Active’
CL1310, Report Source (99) NOTE: In editing this codelist set, do not change the meaning of existing codelist values. Codelist values are reserved as follows: 0-10 from design data, 11-20 from project data, 21-30 reference data. 1 2 3 11 12 21 22
= = = = = = =
’ ’ ’ ’ ’ ’ ’
MTO Report Drawing Report PID Report Header Project Control Report Clash Management Report Piping Job Spec Report Table Checker Report
’ ’ ’ ’ ’ ’ ’
CL1312, Report Type (999) NOTE: Document types defined below must be numerically identical to those defined in CL1720, Document Type; codelist numbers used must not exceed ’999’. In editing this codelist set, do not change the meaning of existing codelist values. 601 682 685 687 689 690 692 696
= = = = = = = =
’Piping RDB Reports’ ’Equipment List’ ’Piping Line List’ ’Piping Segments Report’ ’Piping Components MTO Report’ ’Pipe Supports Report’ ’Instrument List’ ’Piping Release Report’
661
B. Codelists
1 2 3 4
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CL1410, Design Review Type (10) NOTE: In editing this codelist set, do not change the meaning of existing codelist values. 1 = ’Client Review’ 2 = ’Informal Review’
CL1605, Model Status 1 11 12 21
= = = =
’Undefined’ ’Preliminary’ ’Temporary’ ’Permanent’
CL1610, Force Units for FrameWorks Plus (40) 1 2 3 4
= = = =
’LBS’ ’KIPS’ ’N’ ’kN’
CL1620, Drawing View Directions (7) 1 2 3 4 5 6 7
= = = = = = =
’Plan’ ’East Elevation’ ’North Elevation’ ’Isometric’ ’West Elevation’ ’South Elevation’ ’Plan (Vertical)’
CL1630, Drawing View Composition Status (4) 1 2 3 4
= = = =
’Drawing View Not Composed’ ’Drawing View Composed’ ’Composite Drawing View Not Composed’ ’Composite Drawing View Composed’
CL1710, Document Source (99) NOTE: Do not make any new entries to this codelist. In editing this codelist set, do not change the meaning of existing codelist values. 1 = ’Process RDB report’ 2 = ’Process TDB report’ 5 = ’Process TDB drawing’
662
________________ Appendix B:
General Comments
11 = ’P&I RDB report’ 12 = ’P&I TDB report’ 15 = ’P&I TDB drawing’ 21 = ’Vessel RDB report’ 22 = ’Vessel TDB report’ 25 = ’Vessel TDB drawing’ 31 = ’Heat Transfer RDB report’ 32 = ’Heat Transfer TDB report’ 35 = ’Heat Transfer TDB drawing’ 41 = ’Mechanical RDB report’ 42 = ’Mechanical TDB report’ 45 = ’Mechanical TDB drawing’
B. Codelists
46 = ’Piping Specialty RDB report’ 47 = ’Piping Specialty TDB report’ 51 = ’Civil/Structural RDB report’ 52 = ’Civil/Structural TDB report’ 55 = ’Civil/Structural TDB drawing’ 61 62 65 67
= = = =
’Piping ’Piping ’Piping ’Piping
RDB report’ TDB report (PD_Report)’ TDB drawing (PD_Draw)’ isometric TDB drawing’
71 = ’Instrument RDB report’ 72 = ’Instrument TDB report’ 75 = ’Instrument TDB drawing’ 81 = ’Electrical RDB report’ 82 = ’Electrical TDB report’ 85 = ’Electrical TDB drawing’ 91 = ’HVAC RDB report’ 92 = ’HVAC TDB report’ 95 = ’HVAC TDB drawing’ 99 = ’No planned PDS source’
CL1720, Document Type (999) NOTE: The PDS source of each document type is shown to the right of the document type separated from it by the character ’|’ on the basis of codelist numbers defined in CL1710, Document Source. In editing this codelist set, respect the number ranges identified below. (100-199) Process Documents 101 = ’Process RDB Reports | 1’ 121 = ’Process Flow Diagrams | 5’ 125 = ’Materials of Construction Drawings | 5’ 127 = ’Temperature/Pressure Diagrams | 5’ 131 = ’Equipment Process Datasheets | 2’ 133 = ’Instrument Process Datasheets | 2’ 199 = ’Other Process Documents | 99’
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(200-299) Vessel Documents 201 = ’Vessel RDB Reports | 21’ 205 = ’Vessel Job Specifications | 99’ 211 = ’Vessel Requisitions | 22’ 231 = ’Reactor Drawings | 25’ 233 = ’Regenerator Drawings | 25’ 235 = ’Cyclone Drawings | 25’ 237 = ’Transfer Line Drawings | 25’ 239 = ’Tower Drawings | 25’ 241 = ’Drum Drawings | 25’ 243 = ’Tank Drawings | 25’ 245 = ’Silo Drawings | 25’ 247 = ’Stack Drawings | 25’ 299 = ’Other Vessel Documents | 99’ (300-399) Heat Transfer Documents 301 = ’Heat Transfer RDB Reports | 31’ 305 = ’Heat Transfer Job Specifications | 99’ 311 = ’Heat Transfer Requisitions | 32’ 331 = ’Heat Transfer Drawings | 35’ 399 = ’Other Heat Transfer Documents | 99’ (400-499) Mechanical Equipment Documents 401 = ’Mechanical RDB Reports | 41’ 405 = ’Mechanical Equipment Job Specifications | 99’ 411 = ’Mechanical Equipment Requisitions | 42’ 431 = ’Mechanical Equipment Drawings | 45’ 499 = ’Other Mechanical Equipment Documents | 99’ (500-599) Civil/Structural Documents 501 = ’Civil/Structural RDB Reports | 51’ 505 = ’Civil/Structural Job Specifications | 99’ 511 = ’Civil/Structural Requisitions | 99’ 531 = ’Site Preparation Drawings | 99’ 535 = ’Foundation Location Drawings | 65’ 537 = ’Piling Drawings | 65’ 538 = ’Foundation Drawings | 55’ 540 = ’Structural Perspectives, Plans, Sections and Details | 65’ 545 = ’Concrete Structural Drawings | 55’ 550 = ’Steel Structural Drawings | 55’ 570 = ’Building Drawings | 99’ 599 = ’Other Civil/Structural Documents | 99’ (600-699) Piping Documents 601 = ’Piping RDB Reports | 61’ 602 = ’Piping Specialty RDB Reports | 46’ 605 = ’Piping Job Specifications | 99’ 611 = ’Piping Commodity Requisitions | 99’ 612 = ’Piping Specialty Requisitions | 47’ 631 = ’P&IDs | 15’ 633 = ’Hydrotest P&IDs | 15’ 641 = ’Plot Plans | 65’ 643 = ’Equipment Arrangement Drawings | 65’ 651 = ’Piping Underground Drawings | 65’ 661 = ’Equipment Orientations | 65’ 663 = ’Piping One Line Drawings | 65’ 665 = ’Piping Perspectives, Plans, Sections and Details | 65’ 667 = ’Pipeline Alignment Drawings | 65’ 669 = ’Piping Isometric Drawings | 67’ 671 = ’Piping Spool Drawings | 67’ 673 = ’Spring Hanger Drawings | 99’ 675 = ’Pipe Support Details | 99’
664
________________ Appendix B:
681 682 684 685 687 689 690 692 696 699
= = = = = = = = = =
General Comments
’P&ID Equipment List | 12’ ’Equipment List | 62’ ’P&ID Line List | 12’ ’Piping Line List | 62’ ’Piping Segments Report | 62’ ’Piping Components MTO Report | 62’ ’Pipe Supports Report | 62’ ’Instrument List | 62’ ’Piping Release Report | 62’ ’Other Piping Documents | 99’
B. Codelists
(700-799) Instrument Documents 701 = ’Instrument RDB Reports | 71’ 705 = ’Instrument Job Specifications | 99’ 711 = ’Instrument Requisitions | 72’ 721 = ’Instrument Logic Diagrams | 75’ 723 = ’Instrument Loop Diagrams | 75’ 731 = ’Instrument Location Plans | 65’ 733 = ’Instrument Control House/Panel Drawings | 99’ 735 = ’Instrument Hook Up Drawings | 75’ 737 = ’Instrument Heat Tracing Drawings | 75’ 739 = ’Instrument Wiring Drawings | 99’ 771 = ’Instrument Index | 72’ 799 = ’Other Instrument Documents | 99’ (800-899) Electrical Documents 801 = ’Electrical RDB Reports | 81’ 805 = ’Electrical Job Specifications | 99’ 811 = ’Electrical Requisitions | 99’ 831 = ’Electrical One Line Diagrams | 99’ 841 = ’Electrical Area Classification Drawings | 65’ 851 = ’Electrical Underground Drawings | 65’ 861 = ’Electrical Power Drawings | 99’ 863 = ’Electrical Communications Drawings | 99’ 865 = ’Lighting Perspectives, Plans, Sections and Details | 65’ 867 = ’Electrical Heat Tracing Drawings | 99’ 899 = ’Other Electrical Documents | 99’ (900-999) HVAC Documents 901 = ’HVAC RDB Reports | 91’ 905 = ’HVAC Job Specifications | 99’ 911 = ’HVAC Requisitions | 99’ 931 = ’HVAC Flow Diagrams | 99’ 971 = ’HVAC Perspectives, Plans, Sections and Details | 65’ 999 = ’Other HVAC Documents | 99’
CL1900, Isometric Drawing Type NOTE: In editing this codelist set, do not change the meaning of existing codelist values. Some data displays require that only values to the left of the "=" sign be shown; other reports require that only values to the right of the "=" sign be displayed. 1 = ’Fabrication’ 2 = ’Spool’ 3 = ’Stress’
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CL2000, PD_Draw Document Type (999) NOTE: Document types defined below must be numerically identical to those defined in CL1720, Document Type; codelist numbers used must not exceed ’999’. In editing this codelist set, do not change the meaning of existing codelist values. 535 537 540 641 643 651 661 663 665 667 731 841 851 865 971
666
= = = = = = = = = = = = = = =
’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’
Foundation Location Drawings’ Piling Drawings’ Structural Perspectives, Plans, Sections and Details’ Plot Plans’ Equipment Arrangement Drawings’ Piping Underground Drawings’ Equipment Orientations’ Piping One Line Drawings’ Piping Perspectives, Plans, Sections and Details’ Pipeline Alignment Drawings’ Instrument Location Plans’ Electrical Area Classification Drawings’ Electrical Underground Drawings’ Lighting Perspectives, Plans, Sections and Details’ HVAC Perspectives, Plans, Sections and Details’
________________
Glossary
Glossary The sequence of directories, beginning with the root directory (/) that locates a file. See also path name and relative path name.
active depth
The plane in a 3-D design upon which you can place elements and perform manipulations.
active process
The process which is displayed in the Process ID field; it controls the message fields, the menus, and the keyboard. The active process has a highlighted window icon strip.
application software
Software designed to meet specific needs, unlike system software which runs other software.
batch processing
A method of processing data which collects a series of operations into a group (or ‘‘batch’’) and executes the group in a continuous stream without user intervention.
batch queue
A queue, or channel for moving requests, created through NQS. A batch queue handles scheduling for processes submitted through the Batch options screen menu.
branch point
A point on a pipeline which separates piping segments so that they can be assigned different segment parameters. A branch point allows for placement of branch components.
cancel button
The button located in the upper right corner of a form containing a red X or the word cancel. Select the cancel button to exit the form or option.
cell
A permanent association of elements that can be stored and placed as a group, and then manipulated as individual elements.
character
A column data type that stores alphanumeric character data.
client
In network operations, a node which accesses data or performs a function on the remote resource (usually a server). All network operations (database, NFS, NQS) between two or more nodes establish a client/server relationship.
column
An attribute of a database table. A group of columns defines a table in a database.
command
Instructions from the user to perform a function on specified data.
confirm button
A button that appears in the upper right corner of a form and contains a green check mark or the word confirm. Select the confirm button to initiate a specified option.
667
Glossary
absolute path name
________________ Reference Data Manager Reference Guide — April 2002
coordinate
The location of a point along the X, Y, or Z axis.
coordinate system
A geometric relation used to denote the location of points in the design cube. The most common coordinate system is the rectangular coordinate system, whereby points are located by traversing the X, Y, and Z axes of the design cube. Normally, coordinate systems have their origin defined as 0,0,0, though this is not required. Other coordinate systems are used to more easily express the coordinates of specific geometric entities. For example, you can use a spherical coordinate system to help define points on a sphere, and you can use a cylindrical coordinate system to help define points on a cylinder.
coordinates
An ordered set of absolute or relative data values that specify a location in a coordinate system.
core files
The image files written by System V for a number of reasons, the most common of which are memory violations, illegal instructions, bus errors, and user-generated quit signals.
cursor
The pointer that the user moves on the screen to indicate an item or area.
data button
The mouse button used to place data points and tentative points, to accept previously selected elements, and to select commands from forms and menus.
data entry field
The field on a screen used to accept user-supplied data. Also known as key-in field.
data point
A point placed by pressing the data button on the mouse. Data points select commands from the panel menus and Menu Bar, place elements, identify and accept elements, and activate windows and perform window manipulations.
database
A collection of comprehensive informational files having predetermined structure and organization that can then be communicated, interpreted, or processed by a specific program.
database table
The part of the database that is made of rows and columns and contains information about the project and design elements.
default
The predetermined value of a parameter that is automatically supplied by the system or program whenever a value is not specified by the user.
delete
To remove, destroy, eliminate, or erase.
delimiter
A separating mark or space; a character or sequence of contiguous characters that mark the end of a string of characters.
device
A nonaddressable component of a network, that is, a component onto which a user cannot log, for example, tape drive, disk drive, and floppy disk.
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________________
Glossary
A file that contains the names of other files.
display-list box
A small box with horizontal dashes located at the end of a form key-in field. When selected, a list of the data available for that field is displayed. Input can then be selected from the list with a data point instead of keying in the information.
domain
The set of acceptable values for a value within a component.
dragging
Another term for the dynamic function that attaches the cursor to an element so you can see it move.
easting
A term used in plane surveying that describes an east, or positive, difference in longitude.
entity
An object (project, drawing, element, and so forth.) of interest about which information is stored; a relational database table.
envelope file
See interference envelope.
file specification
A UNIX path name that tells the system where to locate a file.
filename
A user-defined name given to an interactively created file. The name should be relevant to the contents of the file.
form
An interface or screen menu designed with the I/FORMS product. Because many of the screen menus in the application software are built with I/FORMS, you must have the FORMS_S product on your workstation.
full path name
The name of the entire path or directory hierarchy to a file, including the file name. See also relative path name.
gadget
A portion of a form, such as a button, a field, or a checklist, that responds to information. Gadgets can display default values or act as data entry areas.
header
The first items of information in a file which precede any actual data. The header contains information on the structure and contents of the file.
hierarchy
A classified structure with superiors (roots) and subordinates (dependents) for grouping files or commands.
icon
A pictorial representation or image; a symbol that graphically identifies a command.
Informix
A relational database management system supported by RIS.
Ingres
A relational database management system supported by RIS.
interference envelope
An equipment modeling primitive or parametric component that is used in conjunction with or instead of model graphics for interference checking. Interference envelopes are given different levels and display symbology to distinguish them from primitives.
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Glossary
directory
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invert elevation
The lowest point on the internal diameter of the pipe.
isometric
Relating to or being a drafting system characterized by three equal axes at right angles; a view in which the horizontal lines of an element are drawn at an angle to the horizontal and all verticals are projected at an angle from the base.
key
An attribute (column) in a table which is chosen as the access vehicle to individual rows of the table.
key-in field
The field on a screen used to accept user-supplied data. Also known as a data entry field.
keypoint
A point on an element, including vertices, to which you can snap.
keyword
A word recognized by the software that provides access to a certain function.
menubar
The strip at the top of the screen that contains icons for selecting commands.
message area
The area that appears in the MicroStation Command Window when you are working in a design file. It is divided into the Command Status field, the Current Command field, the Prompt field, and the Key-in field.
model
A graphic representation or schema.
network
An interconnection of host computers and workstations that enables them to share data and control. The term network can mean the devices that connect the system, or it can mean the connected system.
NFS
Network File System, the system that provides access to data that is distributed among machines through an interconnection of host computers and workstations. NFS allows you to mount a remote resource to your local workstation so you can access the data as though it were local. NFS is usually used to access centralized data on a server.
node
Any addressable device (such as a workstation or a server) that is connected to a network. The network enables the connected nodes to share data and system control.
node address
The hard-wired Ethernet address assigned to each node when it is manufactured. It is necessary for each node to identify and communicate with another node in the network.
node name
A name, or alias, that can be assigned to the node address of a device on a network.
northing
A term used to describe a north coordinate location in the plant coordinate system.
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________________
Glossary
A special equipment modeling primitive that contains the connection point to piping. This point does NOT include a gasket allowance, but rather represents the face-of-flange coordinate.
NQS
Network Queuing System, the software package that allows you to define network-wide batch and device queues. Use of NQS involves setting up local resource queues on the system(s) where the resources reside and setting up ‘‘pipe queues’’ on the systems that are to have access to the resources.
Oracle
A relational database management system supported by RIS.
origin
In coordinate geometry, the point where the x, y, and z-axes intersect.
origin point
The point at which the coordinate system is placed.
orthogonal view
A view which is a projection of the model onto a plane along lines which are orthogonal to the plane.
parameter
A property whose value determines the characteristics or behavior of something.
path
A sequence of directories leading to a file or a sequence of menus leading to a command.
path name
The sequence of directories leading to a file. See also absolute path name and relative path name.
PDS
Plant Design System
pipe queue
A controlled channel for moving requests to batch or device queues on remote systems and for receiving status and/or data in response.
place data point
To identify a specific element, or indicate a specific point in the design file.
plane
A spatial element in geometry that may or may not have a boundary, but is level, having no elevations or depressions, and is three-dimensional.
RDB
Reference Database.
reference database
A collection of reference data containing information relative to industry design codes, vendor’s catalog data, job specifications, commodity libraries, graphics symbology, label descriptions, report formats and other information of a similar manner.
relative path name
The sequence of directories leading from the current directory to a particular file. See also path name and absolute path name.
rotate
To turn; to change the angular orientation; to transform by revolution about a specific axis.
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Glossary
nozzle
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row
A unit of related information in a table. One collection of column values for a table.
rubberbanding
The animation dynamic that enables you to specify the position of a data point while the element changes as you move the cursor.
schema
A description of the overall structure of the rulebase or database.
schema file
A file that outlines the overall logical structure of a rule base or a database.
server
In network operations, the node which maintains common data or performs a common task needed by clients. All network operations (database, NFS, NQS) between two or more nodes establish a client/server relationship.
Structured Query Language SQL
Language developed by IBM for creating, modifying, and querying relational databases.
style
The symbology of an element such as continuous dashes, dash-dot, solid, and so forth.
surface
The skin of a three-dimensional geometric element.
symbology
The display style of an element, including color, style, and weight.
table
A collection of data for quick reference, either stored in sequential locations in memory or printed as an array of rows and columns of data items of the same type.
toggle
To switch; to change between two alternatives.
user name
A name that provides access to an account on the system.
values
Data, either entered by the user or determined by the software, that are stored in an attribute.
variable
A quantity that may assume any one of a set of values.
vector
A quantity possessing both magnitude and direction, generally represented as a line. Vectors can be manipulated geometrically and are represented as a coordinate triple (x,y,z).
view
The defined area of vision on a screen. A view allows you to see a prescribed volume of the design cube. Views are created with their own x, y, and z axes. The x,y plane of the view is parallel to the screen, while the z-axis can be thought of as coming straight out of the view towards you. The view axes maintain this relationship regardless of the rotation with respect to the design cube. See also active depth.
virtual memory
External memory for a computer that can be used as if it were an extension of the computer’s internal memory. The software uses virtual memory to store data. This means that unneeded files and data, stay on the disk until they are called for. Because the internal processing memory stores a minimal amount of data, the software can perform processing more quickly.
672
________________
Glossary
working directory
The directory from which you are accessing files.
Glossary
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Index
Index A abbreviations 314 accessory/item type 634 action 625 actuator type 634 alphanumeric labels 466 approval status 573 HVAC 573 structural 573 area units 657 assembly data management create/batch 529 create/interactive 528 delete 532 extract 535 list 534 report 533 revise 530
C clash management labels 468 clash approval action 660 clash approval method 661 clash checking volume filter option 661 clash checking option 661 clash type 660 cleaning requirements 613 coating requirements 611 code lists sets 449 codelist 1010 657 1028 658 1056 658 1064 658 1074 659 1100 659 1162 659 1201 659 1202 660 1203 660 1204 660 1205 660 1207 661 1208 661 1209 661 125 574 1310 661 1312 661 1410 662 148 603 160 611 1605 662 1610 662 1620 662 1630 662 1710 662
Index
B basic tables 215 bend deflection table 219 bolt commodity code 230 commodity item name 216 component mirror 233 field fit length 232, 234 gasket diameter table 231 pipe length threshold table 222 preferred bolt length table 223 segment pipe run length threshold table 221 weld clearance 228 weld graphics dimensions 229 weld type 226 batch processes 40 bend deflection table 219 bends and branches 271 bolt commodity code table 230 bolted connections 326, 328 ends 324
bolts 272 branch insertion tables 208 reinforcement equations 203
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codelist (continued) 1720 663 180 611 190 611 1900 665 200 612 2000 666 210 612 220 613 230 613 31 572 330 613 332 616 340 618 35 573 36 573 360 618 365 618 366 618 37 573 380 618 390 625 400 625 420 631 425 632 430 632 499 632 50 574 530 634 550 634 570 635 572 636 575 636 576 647 577 650 578 654 69 574 990 656 999 656 codelist names 656 codelist sets 567 comments 569 commodity code attribute message 467 implied data 140 item name table 216 specification data 67 component insulation exclusion data 95 mirror table 233
676
connect point data 270 connector type 574 construction tolerance exclusion data 101 construction status 578 conventions forms 37 copy report discrimination data 169 report format 159 cp type/termination/preparation 613 create assembly data 529 graphic commodity data 278, 279 implied material data 141 instrument specification data 134 label attribute data 478 data 473 graphic data 475 material description library 378 physical commodity data 291, 292 piping specialty specification data 130 piping assembly data 528 PJS table 243, 244 report discrimination data 165 report format 159 standard note type 456 tap properties data 138 tutorial definition file 441 create/batch 244 D data retrieval from the physical data library 267 database information 30 structure reference 56 DBAccess 463 default project control data 53
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Index
E empty weight GCP and RCP data 352 GCP data 348 valves 350 overflow data 351 end prep 613 end standard green 647 red 650 equation wall thickness 636 equipment and piping codelist names 656 equipment divisions/form code 574 error messages 565
example physical data look-up 268 extract assembly data 535 graphic commodity data 286 physical commodity data 300 PJS tables 251 standard note type 462 tutorial definition file 447 F fabrication category 611 female ends 332 field fit length table 232, 234 fire and safety components 316 fittings 316 flange insulation exclusion data 98 flanges 272 fluid code 574 force units 659, 662 forms conventions 37 piping commodity data 656 G gadgets conventions 37 gaskets 272 diameter table 231 separation table 212 generic tables 319 bolted ends 324 female ends 332 male ends 330 studs in bolted connections 326 w/ term type 328 variables 320 weight and thickness data, male ends 333 geometry standard 636 graphic commodity data 27 library 254 manager 275 parametric shape definitions 263 physical data definitions 259 sub-symbol processor 258 symbol processors 256 data
Index
delete graphic commodity data 283 label data 487 physical commodity data 296 piping assembly data 532 PJS table 247 spec data 151 standard note data 461 tutorial definition file 446 delivered reference data 31 density units 659 design review type 662 design standard 635 dimension data example of data look-up 268 directions drawing view 662 discrimination data file 155, 390 displayable attribute labels 466 message 466 document organization 16 purpose 15 document source 662 document type 663, 666 drawing scale 659 drawing size 660 drawing type isometric 665 drawing view composition status 662 directions 662
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graphic (continued) data (continued) library 253 graphic commodity library 254 notes for graphic commodity data 270 physical data tables 266 management create/batch 279 create/interactive 278 delete 283 extract 286 list 285 report 284 revise 281 green and red connect point data 342 overflow data 344 green connect point data 339 end standard 647 overflow data 341 table suffix 647 H heat tracing media 612 heat tracing requirements 612 help 41 hold status 574 hose 273 HVAC approval status 573 I implied material data 91 instrument component specification data 81 components 318 data 133 physical data tables 355 body 355 operators 358 instrument component type/source 632 insulation exclusion data 95, 98 insulation purpose 613 interactive spec writer 103 table check 144 interference clash type 660 interference manager action 660
678
interference manager approval method 661 interference manager approval status 660 introduction database information 30 delivered reference data 31 project organization 22 reference data overview 23 reference data setup 32 isometric drawing labels 467 isometric drawing type 665 L label description data management create attribute data 478 create graphic data 475 delete 487 report 489 revise 485 library 29, 465 label types 466 manager 471 merge 495 library manager create 473 types 466 alphanumeric labels 466 clash management 468 commodity code attribute message 467 displayable attribute labels 466 message 466 isometric drawing labels 467 report labels 468 libraries location 48 library verify RDB 561 library manager tutorial definition file 438 list assembly data 534 graphic commodity data 285 physical commodity data 299 PJS tables 250 standard note data 460 tutorial definition file 445 load spec neutral files 148
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Index
load (continued) standard note data 463 load/revise material description data 379, 380 long material description library 372
N naming conventions tables 303 neutral files location 53 spec data 59
O object types orthographic drawings 572 on-line help 41 operator type 634 operators and actuators 345 overflow data 347 option code 625 options reference data 43 orthographic drawings object types 572 override schedule/thickness 616 P parametric shape definitions 263 PDS environment 33 PD_Shell 34 PD_Shell 34 form conventions 37 physical data definitions 259 library manager 287 management create 291 create/batch 292 delete 296 extract 300 list 299 report 297 revise 294 tables 266 data look-up 268 data retrieval 267 pipe 273 length threshold table 222 piping assembly
Index
M male ends 330 weight and thickness data 333 mass units 658 material description data 28, 361 long material description library 372 material description library manager 376 short material description library 367 specialty material description library 374 library manager 376 create 378 load/revise batch 380 load/revise option 379 replace option 381, 382 report 383 unapproved ==> approved 378 material reference database 366 reference database material description data 366 structure 56 component insulation exclusion data 95 flange insulation exclusion data 98 implied data 91 instrument 81 piping commodity 67 materials class 62 specialty 77 size-dependent data 88 tap properties 85 materials data table 200 materials grade 578 model status 662 MTO tables and functions 237 MTO flag 618
nominal piping diameter table 194 notes graphic commodity data 270 bends and branches 271 bolts, gaskets, and flanges 272 connect point data 270 pipe, tubing, and hose 273
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piping (continued) assembly (continued) language 506 examples 521 placing taps in assemblies 520 library 29, 505 manager 525 piping assembly language 506 commodity data 117 implied material data 91 size-dependent material data 88 specification data 67 component tables 334 empty weight GCP and RCP data 352 GCP data 348 valves 350 overflow data 351 GCP data 339 overflow data 341 green and red cp data 342 overflow data 344 operators and actuators 345 overflow data 347 specialty components 354 variables 336 components required tables 315 construction tolerance exclusion data 101 job specification 27, 55 database structure 56 manager 145 delete option 151 interactive 103 load and replace options 148 report option 152 report manager report discrimination data 163 tables 189, 190, 239 create/batch 244 create/interactive 243 data management 239 delete table 247 extract 251 library management 239 list 250 report 248
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piping (continued) job specification (continued) tables (continued) revise table 245 materials class data 113 materials class data 62 specialty data 129 dimension data 354 specification data 77 piping commodity data forms 656 piping component type 618 piping component type/source 631 piping materials class description 603 piping notes 632 piping/tubing type 632 PJS tables and functions 189 branch insertion tables 208 gasket separation table 212 materials data table 200 nominal piping diameters table 194 temperature and pressure service limits table 191 thickness data tables 197 wall thickness and branch reinforcement equations 203 place taps in assemblies 520 preferred bolt length table 223 pressure units 658 project organization 22 R RDB proposed changes report 555 tables and functions 215 MTO tables and functions 237 verify RBD library 561 red connect point end standard 650 table suffix 650 reference data conflict report 540 location 47 default project control data 53 reference database management data 48 manager 43
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Index
report source 661 report type 661 reporting requirements 618 required tables 315 requirement to reconstruct 618 requirements reporting 618 responsibility 611 revise graphic commodity data 281 implied material data 141 instrument specification data 134 label data 485 physical commodity data 294 piping specialty specification data 130 piping assembly data 530 PJS table 245 report format 159 standard note type 457 tap properties data 138 tutorial definition file 442 revision manager 537 reference database hierarchy of reported discrepancies 539 revision markers 305 S safety classification 618 sample piping assembly language file 521 table checker output 422 schedule/thickness override 616 segment pipe run length threshold table 221 short material description library 367 size-dependent material data 88 source files location 53 spec 55 spec tables library 239 spec writer 103 special tables and functions piping job specification 190 specialty material description library 374 piping components 317
Index
reference (continued) data (continued) overview 23 graphic commodity data 27 label description library 29 material description data 28 piping assembly library 29 piping job specification 27 standard note library 28 setup 32 data impact report 551 database management data 48 revision manager 537, 539 proposed RDB changes report 555 reference data impact report 551 table change report 546 reference data conflict report 540 replace material description data 381, 382 spec neutral files 148 report assembly data 533 discrimination data 163 copy 169 create 165 files 155, 390 format copy 159 create 159 revise 159 graphic commodity data 284 label data 489 labels 468 material description library 383 output 155, 390 physical commodity data 297 PJS tables 248 proposed RDB changes 555 records 155, 390 reference data conflict 540 reference data impact 551 spec data 152 standard note library contents 459 table change 546 tutorial definition file 444 report data discrimination data file 155, 390 files and records 155, 390 format file 155, 390 report output 155, 390
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specialty (continued) specification data 77 standard note 449 library 28, 449 create standard note type 456 delete 461 extract 462 list 460 load database 463 report contents 459 revise standard note type 457 library manager 453 PID RDB 450 standard note titles 656 status drawing view composition 662 model 662 stress analysis requirements 618 structural approval status 573 studs in bolted connections 326 w/ term type 328 sub-symbol processor 258 symbol processors 256 T table 201 113 202 117 203 129 204 133 205 137 212 140 change report 546 checker 144, 385 conventions 303, 304 abbreviations 314 revision marks 305 formats 303 basic tables 215 generic tables 319 instrument components 355 piping component tables 334 table conventions 304 table requirements 315 requirements 315 instrument components 318 piping components 315 fire and safety 316 fittings 316
682
table (continued) requirements (continued) piping components (continued) specialty components 317 valves 315 revision marks 305 table suffix green 647 red 650 tables female ends 332 GCP data 339 GCP overflow data 341 green and red cp data 342 green and red cp overflow data 344 instruments 355 body 355 operators 358 male ends 330 operators and actuators 345 tap properties data 137 properties data 85 TDF manager 437 temperature and pressure service limits table 191 temperature units 658 thickness data tables 197 tubing 273 tutorial definition file create 441 delete 446 extract 447 library manager 438 list 445 report 444 revise 442 tutorial definition manager 437 typefaces 17 U unapproved ==> approved material description library 378 units area 657 density 659 force 659 FrameWorks Plus 662 mass 658 pressure 658
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Index
units (continued) temperature 658 units of measure 569 V valves 315 variables generic tables 320 specific tables 336 verify RDB library 561 tables 385 W wall thickness equations 203 wall thickness equation 636 weight and thickness data male ends 333 weight code 654 weld clearance table 228 graphics dimensions 229 type table 226 weld type 659
Index
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Reference Data Manager (PD_Data) Reference Guide Addendum February 2003
DPDS3-PB-200034B For PDS version 07.02.00.** This document supplements DPDS3-PB-200034A.
Reference Data Manager Reference Guide Addendum – February 2003
Table of Contents Branch Insertion Tables (replaces 6.1.6) ................................................................. 687 CL1204, Interference Clash Types .......................................................................... 691
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Branch Insertion Tables (replaces 6.1.6) Note: The information in this section supersedes the information in the corresponding section of previous versions of the Reference Data Manager Reference Guide (pp 208211 in the PDS 7.1 version of the document). The following information has been modified: Removed “tee with reducing inserts,” “tee with reducing bushing, and reducing tee with reducer(s)” from list of tee branch connections See the following text for details. •
A branch insertion table defines the selection criteria for tee and lateral branches. You must specify the type of wye or cross to be placed in the model and specify the reinforcement data. Branch tables define the reinforcement to be used at tee and lateral branches in the piping system as a function of the acute angle of intersection and the nominal diameters for the intersecting lines. These tables do not include the reinforcement required at Y’s and crosses. For them, the required reinforcement must be specified in Piping Design. The types of tee branch connections include branch weld, coupling, threadolet, reducing tee, nipolet, branch weld with reinforcing pad, sockolet, tee, and weldolet. The system accesses the branch table when placing a component at an intersection when no reinforcement component has been specifically defined. The system uses the information in this table and the header nominal diameter (first size) and branch nominal diameter (second size) to provide the item name of the component to be used at the intersection. Neither interpolation nor extrapolation is allowed.
Neutral File Format Table_Data_Definition ’BWWWW_WW’ ! Description= ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ ! By=ZZZ Ckd By=ZZZ Rev=ZZ Date=ZZ-ZZZ-ZZZZ No_Inputs 2 No_Outputs 3 Units= NPD_IN, NPD_IN, AN*6, AN*6, AN*6 ! Nom Diam Preferred Branch ! Header Branch AABBCC Codes WWWWW WWWWW ’ZZZZZZ’ ’ZZZZZZ’ ’ZZZZZZZ’ WWWWW WWWWW ’ZZZZZZ’ ’ZZZZZZ’ ’ZZZZZZZ’ WWWWW WWWWW ’ZZZZZZ’ ’ZZZZZZ’ ’ZZZZZZZ’ WWWWW WWWWW ’ZZZZZZ’ ’ZZZZZZ’ ’ZZZZZZZ’ WWWWW WWWWW ’ZZZZZZ’ ’ZZZZZZ’ ’ZZZZZZZ’ WWWWW WWWWW ’ZZZZZZ’ ’ZZZZZZ’ ’ZZZZZZZ’ WWWWW WWWWW ’ZZZZZZ’ ’ZZZZZZ’ ’ZZZZZZZ’ WWWWW WWWWW ’ZZZZZZ’ ’ZZZZZZ’ ’ZZZZZZZ’ END
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Reference Data Manager Reference Guide Addendum – February 2003
Example Table_Data_Definition ’BA501_90’ ! Description= A,0.063CA, Use with TA501 ! By=DCG Ckd By=DCG Rev=3 No_Inputs 2 No_Outputs 3 Units= NPD_IN, NPD_IN, AN*6, AN*6, AN*6 ! Nom Diam Preferred Branch ! Header Branch AABBCC Codes 0.75 0.75 ’6Q3C22’ 1 0.75 ’6Q3C24’ 1 1 ’6Q3C22’ 1.5 0.75 ’6Q3C24’ 1.5 1 ’6Q3C24’ 1.5 1.5 ’6Q3C22’ 2 0.75 ’6Q3C74’ 2 1 ’6Q3C74’ 2 1.5 ’6Q3C74’ 2 2 ’6Q3C22’ 3 0.75 ’6Q3C74’ 3 1 ’6Q3C74’ 3 1.5 ’6Q3C74’ > 3 2 ’6Q3C73’ 3 3 ’6Q3C22’ 4 0.75 ’6Q3C74’ 4 1 ’6Q3C74’ 4 1.5 ’6Q3C74’ > 4 2 ’6Q3C73’ > 4 3 ’6Q3C73’ 4 4 ’6Q3C22’ 6 0.75 ’6Q3C74’ 6 1 ’6Q3C74’ 6 1.5 ’6Q3C74’ > 6 2 ’6Q3C73’ > 6 3 ’6Q3C73’ > 6 4 ’6Q3C73’ 6 6 ’6Q3C22’ 8 0.75 ’6Q3C74’ 8 1 ’6Q3C74’ 8 1.5 ’6Q3C74’ > 8 2 ’6Q3C73’ > 8 3 ’6Q3C73’ > 8 4 ’6Q3C73’ > 8 6 ’6Q3C73’ 8 8 ’6Q3C22’ 10 0.75 ’6Q3C74’ 10 1 ’6Q3C74’ 10 1.5 ’6Q3C74’ > 10 2 ’6Q3C73’ > 10 3 ’6Q3C73’ > 10 4 ’6Q3C73’ 10 6 ’6Q3C82’ 10 8 ’6Q3C82’ 10 10 ’6Q3C22’ 12 0.75 ’6Q3C74’ 12 1 ’6Q3C74’ 12 1.5 ’6Q3C74’ -
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Date=17-Aug-1988
> 12 > 12 > 12 12 12 12 12 END
2 3 4 6 8 10 12
’6Q3C73’ ’6Q3C73’ ’6Q3C73’ ’6Q3C82’ ’6Q3C82’ ’6Q3C82’ ’6Q3C22’
-
-
Parameters Table_Data_Definition - Branch Insertion Table Name (character 6) — This field identifies the name of the table. This name results from the compounding of the Branch Table entry defined in the Piping Materials Class with the acute angle of intersection between the header and the branch. These tables use the following naming conventions: — first character: B — second character: a code which combines the criteria type with the maximum size for which threaded components are used in the PMC, as defined below. Criteria 1 applies to carbon steels and low-alloy steels; criteria 2 applies to aluminum alloys, stainless steels and non-ferrous alloys. A= Criteria 1 with no threaded components B= Criteria 1 with threaded components up to 1 inch diameter C= Criteria 1 with threaded components up to 1.5 inch diameter D= Criteria 1 with threaded components up to 2 inch diameter F= Criteria 2 with no threaded components G= Criteria 2 with threaded components up to 1 inch diameter H= Criteria 2 with threaded components up to 1.5 inch diameter I= Criteria 2 with threaded components up to 2 inch diameter Z= Special criteria — third character: the corrosion allowance of the piping materials class for which the table is intended, per the following criteria: 1= None
C= 304 clad
P= Polyester lined
2= 0.020"
D= 304L clad
Q= Polypropylene lined
3= 0.030"
E= 316 clad
R= PTFE lined
4= 0.050"
F= 316L clad
S= Saran lined
5= 0.063"
G= 317 clad
T= Teflon lined
6= 0.10"
H= 317L clad
U= TK31 lined
7= 0.125"
J= 321 clad
V= R11 lined
8= 0.188"
L= Cement lined
W= R15 lined
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Reference Data Manager Reference Guide Addendum – February 2003
9= 0.250"
M= Epoxy lined
X= R18 lined
A= 405 clad
N= Glass lined
Y= Other 1
B= 410S clad
O= Kynar lined
Z= Other 2
— fourth and fifth characters: numbers from 01 through 99 used to make the table name unique. The second part of the table name defines the acute angle of intersection. Negative values and values less than 45 degrees or greater than 90 degrees are not valid. However, when dealing with branch reinforcements, negative values and values less than 20 degrees or greater than 90 degrees are not valid (per ANSI B31.1 and ANSI B31.3). The data fields are sorted by header NPD and then by branch NPD. Nom Diam Header - NPD for Run (integer) — This field identifies the nominal diameter of the header at the intersection. This is the member with the largest nominal diameter. Nom Diam Branch - NPD for Branch (integer) — This field identifies the nominal diameter of the branch member at the intersection. This is the member with the smallest nominal diameter. Preferred Branch AABBCC Codes (character 6) — These fields identify the commodity item name of the component used to reinforce the intersection. — If only one item name is listed, no branch reinforcement calculation is performed. The specified item is placed at the intersection. — If two or more item names apply in one line, the system calculates the branch reinforcement thickness. The system tests the listed item names sequentially (from left to right) until the applicable strength criteria are satisfied. Therefore, these codes should be arranged in ascending strength sequence (for example, reinforcing welds, followed by reinforcing pads, followed by weldolets.) Typically, the codes are from one of the following types: — Reinforcing elements, such as reinforcing welds and pads. — Weld-on components reinforcing the intersection such as saddles and weldolets. — Weld-in components actually making the intersection such as laterals and tees.
690
CL1204, Interference Clash Types Note: The information in this section supersedes the information in the corresponding section of previous versions of the Reference Data Manager Reference Guide (p. 660 in the PDS 7.1 version of the document). The following information has been added: New clash types See the following text for details. •
1 2 3 4 5 6 105 106 110 111 112 113 120 121 122 123 206 220 221 222 223 501 502 504 505 506 510 511 512 513 520 521 522 523 602 604 606 620 621 622 623 1001 1002
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' '
Hard versus Hard' ; Hard versus Soft' ; Hard versus Construction' ; Soft versus Soft' ; Soft versus Construction' ; Construct vs Construct=Construction versus Construction' ; Hard vs Fproof' ; Hard vs Insul' ; Hard vs HardMaint' ; Hard vs HardAccess' ; Hard vs HardSafety' ; Hard vs HardOperating' ; Hard vs SoftMaint' ; Hard vs SoftAccess' ; Hard vs SoftSafety' ; Hard vs SoftOperating' ; Soft vs Insul' ; Soft vs SoftMaint' ; Soft vs SoftAccess' ; Soft vs SoftSafety' ; Soft vs SoftOperating' ; Fproof vs Hard' ; Fproof vs Soft' ; Fproof vs CT' ; Fproof vs Fproof' ; Fproof vs Insul' ; Fproof vs HardMain' ; Fproof vs HardAccess' ; Fproof vs HardSafety' ; Fproof vs HardOperat' ; Fproof vs HardMain' ; Fproof vs HardAccess' ; Fproof vs HardSafety' ; Fproof vs HardOperat' ; Insul vs Soft' ; Insul vs CT' ; Insul vs Insul' ; Insul vs SoftMain' ; Insul vs SoftAccess' ; Insul vs SoftSafety' ; Insul vs SoftOperat' ; HardMain vs Hard' ; HardMain vs Soft' ;
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Reference Data Manager Reference Guide Addendum – February 2003
1004 1005 1006 1010 1012 1013 1020 1021 1022 1023 1101 1102 1104 1105 1106 1110 1111 1112 1113 1120 1121 1122 1123 1201 1202 1204 1205 1206 1210 1211 1212 1213 1220 1221 1222 1223 1301 1302 1304 1305 1306 1310 1311 1312 1313 1320 1321 1322 1323 2002 2004 2006 2020 2021 2022 2023 2102
692
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' '
HardMain vs CT' HardMain vs Fproof' HardMain vs Insul' HardMain vs HardMain' HardMain vs HardSafety' HardMain vs HardOperat' HardMain vs SoftMain' HardMain vs SoftAccess' HardMain vs SoftSafety' HardMain vs SoftOperat' HardAcc vs Hard' HardAcc vs Soft' HardAcc vs CT' HardAccess vs Fproof' HardAccess vs Insul' HardAcc vs HardMain' HardAcc vs HardAcc' HardAcc vs HardSafety' HardAcc vs HardOperat' HardAcc vs SoftMain' HardAcc vs SoftAcc' HardAcc vs SoftSafety' HardAcc vs SoftOperat' HardSafety vs Hard' HardSafety vs Soft' HardSafety vs CT' HardSafety vs Fproof' HardSafety vs Insul' HardSafety vs HardMain' HardSafety vs HardAcc' HardSafety vs HardSafety' HardSafety vs HardOperat' HardSafety vs SoftMain' HardSafety vs SoftAccess' HardSafety vs SoftSafety' HardSafety vs SoftOperat' HardOperat vs Hard' HardOperat vs Soft' HardOperat vs CT' HardOperat vs Fproof' HardOperat vs Insul' HardOperat vs HardMain' HardOperat vs HardAccess' HardOperat vs HardSafety' HardOperat vs HardOperat' HardOperat vs SoftMain' HardOperat vs SoftAccess' HardOperat vs SoftSafety' HardOperat vs SoftOperat' SoftMain vs Soft' SoftMain vs CT' SoftMain vs Insul' SoftMain vs SoftMain' SoftMain vs SoftAccess' SoftMain vs SoftSafety' SoftMain vs SoftOperat' SoftAccess vs Soft'
; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ;
2104 2106 2120 2121 2122 2123 2202 2204 2206 2220 2221 2222 2223 2302 2304 2306 2320 2321 2322 2323
= = = = = = = = = = = = = = = = = = = =
' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' '
SoftAccess SoftAccess SoftAccess SoftAccess SoftAccess SoftAccess SoftSafety SoftSafety SoftSafety SoftSafety SoftSafety SoftSafety SoftSafety SoftOperat SoftOperat SoftOperat SoftOperat SoftOperat SoftOperat SoftOperat
vs vs vs vs vs vs vs vs vs vs vs vs vs vs vs vs vs vs vs vs
CT' Insul' SoftMain' SoftAccess' SoftSafety' SoftOperat' Soft' CT' Insul' SoftMain' SoftAccess' SoftSafety' SoftOperat' Soft' CT' Insul' SoftMain' SoftAccess' SoftSafety' SoftOperat'
; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ;
693
Reference Data Manager Reference Guide Addendum – February 2003
Index branch insertion tables, 687
694
codelist 1204, 691
