Stress Analysis of Piping Systems and Pipelines_Harvard_University

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Stress Analysis of Piping Systems and Pipelines July 17-21, 2004 Dubai, U.A.E.

Copyright © 2004 by Harvard Technology Middle East. All Rights Reserved

To The Participant The Course notes are intended as an aid in following lectures and for review in conjunction with your own notes; however they are not intended to be a complete textbook. If you spot any inaccuracy, kindly report it by completing this form and dispatching it to the following address, so that we can take the necessary action to rectify the matter.

P. O. Box 26608 Abu Dhabi, U.A.E. Tel: +971 2 627 7881 Fax: +971 2 627 7883 Email: [email protected]

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Disclaimer The information contained in these course notes has been complied from various sources and is believed to be reliable and to represent the best current knowledge and opinion relative to the subject. Harvard Technology offers no warranty, guarantee, or representation as to it’s absolute correctness or sufficiency. Harvard Technology has no responsibility in connection therewith; nor should it be assumed that all acceptable safety and regulatory measures are contained herein, or that other or additional information may be required under particular or exceptional circumstances.

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COURSE OVERVIEW ME890

Stress Analysis of Piping Systems and Pipelines Course Title Stress Analysis of Piping Systems and Pipelines Course Date/ Venue July 17-21, 2004/ Palm 3, Lower lobby, JW Marriott Hotel, Dubai, UAE Course Reference ME890 Course Duration Five days Course Objectives The course provides a comprehensive and practical understanding of the ASME B31.3 code (refining and petrochemical process and utilities), the B31.4 code (crude and refined liquid products), the B31.8 code (gas) and the B31G code (corroded pipelines) codes; to help the participant make the right design and inspection decisions for new systems and construction, make cost-effective run-or-repair decisions for existing systems, and select and design repair alternatives for degraded and aged systems. Each section is followed by practical class exercises to apply the concepts learned to actual field case histories in plant process piping and oil and gas pipelines. The experienced engineer or inspector will find an in-depth exploration of the code rules, their origin, their application to existing (corroded) systems, their role in the evaluation of inspection results and failure analysis, and future trends and developments. The new engineer or inspector will find an excellent opportunity to learn – in a structured and logical sequence – how to apply the fundamental concepts of the ASME B31 codes for piping systems (B31.3) and pipelines (B31.4, B31.8 and B31G). The course builds on the fundamentals of ASME B31 to also provide the tools for the analysis of corrosion and cracking mechanisms, the structured approach to failure analysis (failure cause and effects), remaining life and repair strategies. The course includes calculation techniques for making quantitative decisions in design, integrity, evaluation of inspection results, and determination of remaining life. Please bring a calculator. Course Certificate Harvard Technology certificate will be issued to all attendees completing the course. ME890 -

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Who Should Attend This course is intended for the engineer and the inspector responsible for the costeffective and reliable design and construction of new systems as well as the inspection and continued integrity of operating piping systems and pipelines. Further, Design Draftsmen will benefit from this course. Course Fee US $ 2,750 per Delegate. This rate includes Participant’s Pack (Folder, Manual, Hand-outs, etc.), buffet lunch, coffee/tea on arrival, morning & afternoon of each day. This fee also includes Mr. George Antaki’s book “Piping and Pipeline Engineering”, a 540 pages hard cover book published by M. Dekker, New York in 2003. Accommodation Accommodation is not included in course fees. However, any accommodation required can be arranged by Harvard Technology at the time of booking. Course Instructor Mr. George Antaki, P.E. (USA), is a registered professional engineer in the United States and a Fellow of ASME (the American Society of Mechanical Engineers). He is a practicing engineer in the field of piping, pipelines and mechanical equipment. He is a member of several ASME code committees, including the Executive Committee on Post-Construction, Vice-Chairman of the joint ASME-API committee on Fitness-for-Service (API 579), and the ASME B31 Mechanical Design Technical Committee. Mr. Antaki is an ASME instructor in piping, pipelines and integrity, and the author of “Piping and Pipeline Engineering” book, published by M. Dekker. Course Program Day 1

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