aeb01052QST30

November 30, 2017 | Author: acere18 | Category: Diesel Engine, Engines, Cylinder (Engine), Cummins, Turbocharger
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Application Engineering Bulletin Subject

QST30 (30L) Generator-Drive Technical Package Date July, 1996

Page 1 of 45

AEB Number 10.52

Table of Contents Product Introduction Introduction Schedule................................................................................................................................... 2 Ratings ......................................................................................................................................................... 2 Program Objectives ............................................................................................................................................ 3 Design Features ................................................................................................................................................. 4 Publications ........................................................................................................................................................ 5 Competitive Comparisons QST30 G1/G2/G3 vs KTA38 G1/G2/G3....................................................................................................... 6 QST30 vs DDC............................................................................................................................................. 7 QST30 vs VTA28G5 ..................................................................................................................................... 7 QST30 vs Caterpillar .................................................................................................................................... 8 Explanation of Specifications Language ............................................................................................................. 9 Table of Specifications including: Product Identifiers......................................................................................................................................... 9 Pricing Configuration Numbers..................................................................................................................... 9 Pricing Specifications...................................................................................................................................10-14 Performance Curves and Data Sheets ........................................................................................................15-30 Engine Component Locations......................................................................................................................31-34 Electric Intake Air Heaters ................................................................................................................................ 35 Fuel System Design Considerations................................................................................................................. 36 QST30 Generator Drive - Quantum Control System ........................................................................................ 38 Appendix QST30 G1/G2 Installation Drawing .......................................................................................................... A-1 Preliminary Sales Handbook .................................................................................................................... B-1

Cummins Engine Company, Inc., Columbus, Indiana 47201

Form 5745-0281

AEB 10.52 Page 2 of 45

Introduction The QST30 is a 12-cylinder engine with 30-liter displacement designed for use in the Power Generation market. The QST30 initially will cover power ranges of 750-900 kWe @ 60 Hz (1135-1340 BHP @ 1800 RPM) and 625-800 kWe @ 50 Hz (940-1030 BHP @ 1500 RPM). The marketing designation for this engine will be QST30 (Quantum System - 30 Liters). The following table provides QST30 Generator-Drive engine product information and introduction dates. Model QST30-G1 QST30-G2 QST30-G3

Standby Rating BHP @ RPM 1185 @ 1800 940 @ 1500 1200 @ 1800 1030 @ 1500 1340 @ 1800 N.A. @ 1500

Standby Rating kWe @ Hz 750 @ 60 Hz 620 @ 50 Hz 800 @ 60 Hz 705 @ 50 Hz 900 @ 60 Hz N.A. @ 50 Hz

N.A. N.A. (see above)

Prime Rating BHP @ RPM

Prime Rating kWe @ Hz

1030 @ 1800 850 @ 1500 1085 @ 1800 935 @ 1500

675 @ 60 Hz 560 @ 50 Hz 725 @ 60 Hz 640 @ 50 Hz

N.A.

N.A. N.A. (see above)

Introduction Date Qtr/Yr

JWAC

None

Q3/96

JWAC

None

N.A.

Q1/97

850 @ 1500

560 @ 50 Hz

Q1/97

935 @ 1500 1220 @ 1800

640 @ 50 Hz 820 @ 60 Hz

Q1/97

JWAC Low Temp. AC Low Temp. AC Low Temp. AC Low Temp. AC

None 2 gms/m NOx TA LUFT 2 gms/m NOx TA LUFT

QST30-G2

Q1/98 QST30-G3 1200 @ 1500

800 @ 50 Hz

Emissions

Q3/96

QST30-G1

QST30-G3

Aftercooling

1080 @ 1500

725 @ 50 Hz

Q1/98

None 2 gms/n NOx TA LUFT

The 30L engine will be manufactured by Cummins Komatsu Engine Company (CKEC). CKEC is a joint venture for engineering and manufacturing engines for both Cummins and Komatsu with Cummins being the managing partner. The 30L engine evolved from a Komatsu base engine design and has been greatly enhanced through the use of Cummins’ expertise in diesel engine technology (electronics, air handling, combustion, filtration, and manufacturing). Originally, the 30L was designed for use in construction equipment (dozers, end loaders, etc.) which allowed Cummins to build on an existing, proven platform. Primary markets for the 30L will be Power Generation and Industrial. While the 30L engine is based on a Komatsu 12-cylinder design, significant changes are being introduced by Cummins. Some of the changes being introduced are: Bosch fuel system; Holset turbochargers and dampers; Fleetguard filters (same as K38/50); Cummins designed and developed electronic controls; and many internal changes to increase base engine output capability and durability. Over 90% of the engine is being resourced within Cummins qualified supply base to provide a low cost, high quality product for Cummins customers. Cummins worldwide distribution network for parts, service support and information systems are implementing a global strategy for QST30 product support in conjunction with the Cummins Area Business Organizations (ABOs). The QST30 engine will be introduced with compatibility to the new electronic service tools, diagnostics and information systems. Compatibility with these tools and systems will enable the worldwide Cummins support network to provide excellent after-sale customer care. Information in this package contains preliminary data and drawings that are subject to change. If you have any questions concerning the information in this package, please contact J.C. (John) Kirchman, Cummins Power Generation Application Engineering, at: Cummins Engine Company, Inc. Mail Code: 91800 P.O. Box 3005 Columbus, Indiana 47202-3005 (U.S.A.) Phone: (812) 377-8692 Facsimile: (812) 377-8214

AEB 10.52 Page 3 of 45

Cummins QST30

Program Objectives

• Electronic Fuel System and Controls

• Emission Certifiable Alternative to V28/K38

• Production in Cummins N. American Plant (Cummins Industrial Center)

• Holset Turbochargers and Dampers

• Fleetguard Filters

• First in a Series of QUANTUM G-Drive Products

AEB 10.52 Page 4 of 45

Cummins QST30 Design Features • Direct Injection • 4-Stroke Cycle • Turbocharged & Aftercooled • 4 Valves / Cylinder • Individual Cylinder Heads • Spray Piston Cooling • Nodular Iron, Gallery Cooled Piston • Pressure Lubricated Piston Pin Bushing • 4-Bolt, Forged Steel Connecting Rods • Electronic Bosch PLN Fuel System • TUFTRIDE Treatment of Cylinder Liners • Induction Hardened Crankshaft • High Capacity Lube Oil Pump • Cross Flow Cylinder Heads • Two Separate Speed Controlled Ramping Functions • Barber-Colman and Woodward Speed Bias Interface • 50/60Hz Speed Switching • Customer Meter Drivers • Engine Features: Customer Warning/Alarm Indication

AEB 10.52 Page 5 of 45

Publications Available, and soon-to-be available, literature is as follows: Publication * QST30-G1/G2/G3 Parts Manual * QST30 Shop Manual Engine T & R Manual * QST30 O & M Manual * QST30 G-Drive Wiring Diagram * Sales Handbook * Fuel System T & R Manual * INSITE™ For G-Drive Manual QST30 G-Drive * Quantum 30 G-Drive Governor Bulletin

Bulletin Number 3672102 3666196 TBD (1997 by Service Dept.) 3666134 3666185 3884876 3666184 3825145 AEB 10.52 3884888

QST30-G1

* Specification Sheet Performance Curve Data Sheet ** Installation Drawing Pricing Spec (US) Pricing Spec (Stanfast) CSL GDRV

3885368 C-4977 DS-4977 3626434 PRIC 910 PRIC 1088 GDRV60

QST30-G2

* Specification Sheet Performance Curve Data Sheet ** Installation Drawing Pricing Spec (US) Pricing Spec (Stanfast) CSL GDRV

3885369 C-4978 DS-4978 3626434 PRIC 923 PRIC 1089 GDRV61

QST30-G3

* Specification Sheet Performance Curve Data Sheet ** Installation Drawing Pricing Spec (US) Pricing Spec (Stanfast) CSL GDRV

3885370 C-4979 DS-4979 3329319 PRIC 924 PRIC 1090 GDRV62

* 1. 2. 3. 4.

All of the literature listed above may be purchased from Gannett Direct Mail Services (GDMS) using TOSS. Instructions for ordering from Gannett are as follows: On the COMMAND line type: REVI #FORM (press ENTER). Move cursor to the COMMAND line and type: FIND GANNETT (press ENTER). Move cursor to the COMMAND line and type: COPY nnn, (nnn=Gannett Order Form number) (press ENTER). Now complete the form that has been copied into your draft file and hit PF4 key to send. It’s just that easy!

** Installation Drawings must be ordered thru Marketing Cad on TOSS. Use the same commands as above for literature except: FIND CUSTOMER CADD REQUEST, to retrieve the required form.

AEB 10.52 Page 6 of 45

Competitive Comparison K38 Replacement In addition to the competitive comparison data shown on pages 7 and 8 of this bulletin, the QST30 will be competing with and replacing the physically larger KTA38. The QST30 size and performance advantages over the KTA38 are shown in the following table.

Engine Model Type Cylinders & Aspiration Bore X Stroke (mm) Displacement (L) Rated Output (hp/RPM) Standby: 1800/1500 Prime: 1800/1500 BSFC @ Rated (lb/BHP-hr) Standby: 1800/1500 Prime: 1800/1500 Piston Speed (ft/sec) @ 1800/1500 RPM Dry Weight (lbs) Wet Weight (lbs) Length (in) Width (in) Height (in) Specific Heat Rejection (BTU/hp-min) Standby: 1800/1500 Prime: 1800/1500

Cummins

Cummins

Cummins

QST30-G1 4-Cycle 12V, TA 140 x 165 30.5

Cummins QST30/G2 4-Cycle 12V, TA 140 x 165 30.5

Cummins QST30-G3 4-Cycle 12V, TA 140 x 165 30.5

KTA38-G1 4-Cycle 12V, TA 159 x 159 37.8

KTA38-G2 4-Cycle 12V, TA 159 x 159 37.8

KTA38-G3 4-Cycle 12V, TA 159 x 159 37.8

Cummins

1135 / 940 1030 / 850

1200 / 1030 1085 / 935

1340 / --------- / -----

1135 / 940 1030/850

1200/980 1085/890

1340/1200 1220/1080

0.342 / 0.338 0.338 / 0.337

0.342 / 0.340 0.340 / 0.337

0.336 / --------- / -----

0.353/0.352 0.355/0.353

0.352/0.351 0.353/0.353

0.333/-------/----

32.5 / 27.2 6540 6750 74.8 53.5 63.4

32.5 / 27.2 6540 6750 74.8 53.5 63.4

32.5 / ----6540 6750 74.8 53.5 63.4

31.25/26.0 8555 9065 86.2 52 65

31.25/26.0 8555 9065 86.2 52 65

31.25/26.0 8555 9065 86.2 52 65

24.6 / 22.8 23.8 / 21.9

24.5 / 23.4 24.6 / 23.3

21.8 / --------- / -----

33.0/33.0 33.0/33.0

33.0/33.0 33.0/33.0

26.0/-------/----

AEB 10.52 Page 7 of 45

Competitive Engines The 30L engine envelope is approximately the same as the Cummins V28. This compact package provides excellent installation fit when replacing a V28 or larger K38 engine. It is also an advantage when replacing installations of CAT 3412, 3508 and DDC 12V92, 16V92 and 8V149 engines. The attractive package size of the 30L will continue to benefit Cummins over future product releases of the DDC 2000 Series engine planned for mid-1996 production launch. The 30L engine will compete directly with the 12- and 16-cylinder 2000 Series product offerings. Engine comparisons of the 30L engine versus other Cummins products and competitive engines are shown below. The tables also include performance information regarding power levels, brake specific fuel consumption and brake specific heat rejection. Engine Model Type Cylinders & Aspiration Bore X Stroke (mm) Displacement (L) Rated Output (hp/RPM) Standby: 1800/1500 Prime: 1800/1500 BSFC @ Rated (lb/bhp-hr) Standby: 1800/1500 Prime: 1800/1500 Piston Speed (ft/sec) @ 1800/1500 RPM Dry Weight (lbs) Wet Weight (lbs) Length (in) Width (in) Height (in) Specific Heat Rejection (BTU/hp-min) Standby: 1800/1500 Prime: 1800/1500

Engine Model Type Cylinders & Aspiration Bore X Stroke (mm) Displacement (L) Rated Output (hp/RPM) Standby: 1800/1500 Prime: 1800/1500 BSFC @ Rated (lb/bhp-hr) Standby: 1800/1500 Prime: 1800/1500 Piston Speed (ft/sec) @ 1800/1500 RPM Dry Weight (lbs) Wet Weight (lbs) Length (in) Width (in) Height (in) Specific Heat Rejection (BTU/hp-min) Standby: 1800/1500 Prime: 1800/1500

DDC

DDC

DDC

QST30-G1 4-Cycle V12, TA 140 x 165 30.5

Cummins

QST30-G2 4-Cycle V12, TA 140 x 165 30.5

QST30-G3 4-Cycle V12, TA 140 x 165 30.5

12V92 2-Cycle V12, TA 123 x 127 18.1

16V92 2-Cycle V16, TA 123 x 127 24.1

16V92 2-Cycle V16, TA 123x127 24.1

1135 / 940 1030 / 850

1200 / 1030 1085 / 935

1340 / ---------- / -----

947 / 747 818 / 645

1170 / 974 1064 / 885

1232 / 1025 1064 / 885

0.342 / 0.338 0.338 / 0.337

0.342 / 0.340 0.340 / 0.337

0.336/ --------- / ----

0.360/0.360 0.365/0.358

0.372 / 0.372 0.370 /0.368

0.375 / 0.373 0.380 / 0.377

32.5 / 27.2 6540 6750 74.8 53.5 63.4

32.5 / 27.2 6540 6750 74.8 53.5 63.4

32.5 / ----6540 6750 74.8 53.5 63.4

25.0 / 20.8 4280 4665 66.1 49.8 57.1

25.0 / 20.8 4840 5273 77.1 46.3 59

25.0 / 20.8 4840 5273 77.1 46.3 59

24.6 / 22.8 23.8 / 21.9

24.5 / 23.4 24.6 / 23.3

21.8 / --------- / -----

31 / 31 31 / 31

31 / 31 31 / 31

31 / 31 31 / 31

Cummins

Cummins

Cummins

Cummins

Cummins

DDC

Cummins

QST30-G1 4-Cycle V12, TA 140 x 165 30.5

QST30/G2 4-Cycle 12V, TA 140 x 165 30.5

QST30-G3 4-Cycle 12V, TA 140 x 165 30.5

12V-149 2-Cycle 12V, TA 146 x 146 29.39

VTA28-G5 4-Cycle 12V, TA 140 x 152 28

1135 / 940 1030 / 850

1200 / 1030 1085 / 935

1340 / --------- / -----

1550 / 1270 1377 / 1155

900/872 815/750

0.342 / 0.338 0.338 / 0.337

0.342 / 0.340 0.340 / 0.337

0.336 / --------- / -----

0.357 / 0.368 0.356 / 0.360

0.361 / 0.351 0.355 / 0.350

32.5 / 27.2 6540 6750 74.8 53.5 63.4

32.5 / 27.2 6540 6750 74.8 53.5 63.4

32.5 / ----6540 6750 74.8 53.5 63.4

28.8 / 23.96 9030 9569 90.5 62.4 74

30.0 / 25.0 6395 6725 77.2 50.5 66.3

24.6 / 22.8 23.8 / 21.9

24.5 / 23.4 24.6 / 23.3

21.8 / --------- / -----

34 / 34 34 / 34

29.0 / 26.2 25.8 / 25.8

AEB 10.52 Page 8 of 45 Engine Model Type Cylinders & Aspiration Bore X Stroke (mm) Displacement (L) Rated Output (KWe/KVA/ RPM) Standby: 1800/1500 Prime: 1800/1500 BSFC @ Rated (lb/bhp-hr) Standby: 1800/1500 Prime: 1800/1500 Piston Speed (ft/sec) @ 1800/1500 RPM Dry Weight (lbs) Wet Weight (lbs) Length (in) Width (in) Height (in) Specific Heat Rejection (BTU/hp-min) Standby: 1800/1500 Prime: 1800/1500

Cummins

Caterpillar

Caterpillar

Caterpillar

QST30-G1 4-Cycle 12V, TA 140 x 165 30.5

Cummins QST30-G2 4-Cycle 12V, TA 140 x 165 30.5

Cummins QST30-G3 4-Cycle 12V, TA 140 x 165 30.5

3412 4-Cycle 12V, TA 137 x 152 27

3508 4-Cycle 12V, TA 170 x 190 34.5

3512 4-Cycle 12V, TA 170 x 190 51.8

750 / 775 675 / 700

800 / 880 725 / 800

900 / ---------/-----

800 / 800 725 / 725

700 / 775 650 / 700

----- / ----910 / 1000

0.342 / 0.338 0.338 / 0.337

0.342 / 0.340 0.340 / 0.337

0.336 / --------- / -----

0.350 / 0.334 0.347 / 0.335

0.3348 / 0.345 0.353 / 0.352

----- / ----0.334 / 0.325

32.5 / 27.2 6540 6750 74.8 53.5 63.4

32.5 / 27.2 6540 6750 74.8 53.5 63.4

32.5 / 27.2 6540 6750 74.8 53.5 63.4

29.9 / 24.9 4515/4720

37.4 / 31.2 9500

37.4 / 31.2 13505

78.6 44.7 52.2

90.9 60.9 70.6

115.4 56.5 73.2

24.6 / 22.8 23.8 / 21.9

24.5 / 23.4 24.6 / 23.3

21.8 / --------- / -----

24.8 / 23.6 24.5 / 23.7

25.4 / 24.1 25.7 / 24.5

----- / ----24.9 / 23.2

AEB 10.52 Page 9 of 45

Product Specification Language The 30L engine will be released in '03' language. Cummins has traditionally structured the configuration level of the product in option language which is known as '02' language. The '03' structuring technique for this level of the product is called Engineering Bills of Material (EBMs). In order to distinguish which products use EBMs, an ID Code of 27 was introduced and a suffix of -03 appears at the end of the configuration number (-02 language uses an ID Code of 24 with an -02 suffix). The '03' language will more clearly relate mounting and plumbing items to the item being mounted and plumbed and is easier to find and interpret. The 30L engine will use 5000 series engine EBM (option) numbers (e.g. LF 5052). The V28 engine options are also 5000 series options but are NOT applicable to the 30L engine. Since the 30L is in '03' language, the option ID Code will be 27 (the V28 options are ID Code 24 or '02' language). V28 options can NOT be specified for a 30L engine; however, if a customer wants an option equivalent to an existing V28 offering, a new 30L option may need to be developed and released. Check your sales handbook and/or IMS data base since many comparable options have already been defined for the 30L. The CSL (Customer Specification Language) data base will be used for all 30L engine specifications. Product Identifier and Pricing Configuration numbers required for CSL have been set up. The initial engine options and pricing will be loaded into CSL as quickly as the options are defined in the Cummins system. Standard Pricing Configuration specifications are available in CSL. CSL specifications are loaded in the system with continual addition of options and configuration numbers as they are released.

Pricing Specifications Add/Delete notation under the Pricing Configuration specifies the ability to use the same Pricing Configuration for both Standby and Prime Power rating requests by adding and deleting the proper FR option from the configuration. FR Option (Duty) FR 5131 (STBY) FR 5132 (Prime)* FR 5129 (STBY) FR 5130 (Prime)* FR 5128 (STBY) No Prime Power Available til ’98 FR 5131 Stanfast FR 5129 Stanfast

QST30-G3

Rating (BHP @ RPM) 1135 @ 1800 940 @ 1500 1030 @ 1800 850 @ 1500 1200 @ 1800 1030 @ 1500 1085 @ 1800 935 @ 1500 1340 @ 1800 N.A. @ 1500

QST30-G3

N/A

Model QST30-G1 QST30-G1

QST30-G2 QST30-G2

Product Identifier

Pricing Configuration

GDRV 60

PRIC 910 Add/Delete with PRIC 910

GDRV 60 GDRV 61 GDRV 61

PRIC 923 Add/Delete with PRIC 923

GDRV 62

PRIC 924

N/A

N/A

GDRV 60

PRIC 1088

GDRV 61

PRIC 1089

1135 @ 1800 QST30-G1 1200 @ 1800 QST30-G2

* Prime Power rating has overload capability up to the respective engine model’s Standby rating.

AEB 10.52 Page 10 of 45

CUMMINS SPECIFICATION WORLDWIDE (Except Central Area) CUSTOMER: ENGINE MODEL: QST30-G1 ITEM NUMBER: PRIC 910 RATED HP: 1135 DESC: GDRV D57 PRIC GDRV RPM: 1800 CUSTOMER CODE: 106 CONFIGURATION NO: D573001GX03 CUMMINS ITEM NUMBER GDRV 60 AP 5001 BC 5004 CB 5001 DA 5078 DF5001 DL 5006 DO 5006 EE 5059 EH 5001 EM 5075 FA 5057 FF 5065 FH 5031 FN 5002 FR 5131 FV 5001 FW 5050 LF 5053 LG 5001 LT 5008 OB 5042 OF 5020 OP 5133 PU 5001 SB 5001 SP 5002 SS 5011 ST 5017 TB 5040 TH 5008 WF 5021 WI 5049 XS 5028

ID & TYPE 36 0 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6

ITEM DESCRIPTION QST30-G1 APPROVAL, AGENCY ENGINE, BASE DRIVE, ENGINE BARRING DAMPER, VIBRATION DRIVE, FRO GER TRA ACC LOCATION, DRAIN SOFTWARE, CUS INTERFACE ALTERNATOR MOUNTING, ALTERNATOR SUPPORT, FRONT ENGINE DRIVE, FAN FILTER, FUEL HOUSING, FLYWHEEL FAN, ENGINE RATING, FUEL VALVE, FUEL SHUTOFF FLYWHEEL FILTER, FULL FLOW OIL GAUGE, OIL LEVEL LITERATURE ARRANGEMENT, OIL FILL FILTER, OIL BYPASS PAN, OIL PULLEY, ACCESSORY DRIVE ACCESSORIES, ELE STARTING SPACER, FAN PILOT PAINT MOTOR, STARTING ARRANGEMENT, TURBOCHARGER HOUSING, THERMOSTAT RESISTOR, CORROSION CONNECTION, WATER INLET CONNECTION, EXHAUST OUTLET

AEB 10.52 Page 11 of 45

CUMMINS SPECIFICATION WORLDWIDE (Except Central Area) CUSTOMER: ENGINE MODEL: QST30-G2 ITEM NUMBER: PRIC 923 RATED HP: 1200 DESC: GDRV D57 PRIC GDRV RPM: 1800 CUSTOMER CODE: 106 CONFIGURATION NO: D573001GX03 CUMMINS ITEM NUMBER GDRV 61 AP 5001 BC 5001 CB 5001 DA 5078 DF 5001 DL 5006 DO 5005 EE 5059 EH 5001 EM 5075 FA 5057 FF 5065 FH 5031 FN 5002 FR 5129 FV 5001 FW 5050 LF 5053 LG 5001 LT 5008 OB 5042 OF 5020 OP 5133 PU 5001 SB 5001 SP 5002 SS 5011 ST 5017 TB 5040 TH 5008 WF 5021 WI 5049 XS 5028

ID & TYPE 36 0 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6

ITEM DESCRIPTION QST30-G2 APPROVAL, AGENCY ENGINE, BASE DRIVE, ENGINE BARRING DAMPER, VIBRATION DRIVE, FRO GER TRA ACC LOCATION, DRAIN SOFTWARE, CUS INTERFACE ALTERNATOR MOUNTING, ALTERNATOR SUPPORT, FRONT ENGINE DRIVE, FAN FILTER, FUEL HOUSING, FLYWHEEL FAN, ENGINE RATING, FUEL VALVE, FUEL SHUTOFF FLYWHEEL FILTER, FULL FLOW OIL GAUGE, OIL LEVEL LITERATURE ARRANGEMENT, OIL FILL FILTER, OIL BYPASS PAN, OIL PULLEY, ACCESSORY DRIVE ACCESSORIES, ELE STARTING SPACER, FAN PILOT PAINT MOTOR, STARTING ARRANGEMENT, TURBOCHARGER HOUSING, THERMOSTAT RESISTOR, CORROSION CONNECTION, WATER INLET CONNECTION, EXHAUST OUTLET

AEB 10.52 Page 12 of 45

CUMMINS SPECIFICATION WORLDWIDE (Except Central Area) CUSTOMER: ENGINE MODEL: QST30-G3 ITEM NUMBER: PRIC 924 RATED HP: 1340 DESC: GDRV D57 PRIC GDRV RPM: 1800 CUSTOMER CODE: 106 CONFIGURATION NO: D573001GX03 CUMMINS ITEM NUMBER GDRV 62 AP 5001 BC 5001 CB 5001 DA 5078 DF 5001 DL 5006 DO 5004 EE 5059 EH 5001 EM 5075 FA 5057 FF 5065 FH 5031 FN 5002 FR 5128 FV 5001 FW 5050 LF 5053 LG 5001 LT 5008 OB 5042 OF 5020 OP 5133 PU 5001 SB 5001 SP 5002 SS 5011 ST 5017 TB 5040 TH 5008 WF 5021 WI 5049 XS 5028

ID & TYPE 36 0 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6

ITEM DESCRIPTION QST30-G3 APPROVAL, AGENCY ENGINE, BASE DRIVE, ENGINE BARRING DAMPER, VIBRATION DRIVE, FRO GER TRA ACC LOCATION, DRAIN SOFTWARE, CUS INTERFACE ALTERNATOR MOUNTING, ALTERNATOR SUPPORT, FRONT ENGINE DRIVE, FAN FILTER, FUEL HOUSING, FLYWHEEL FAN, ENGINE RATING, FUEL VALVE, FUEL SHUTOFF FLYWHEEL FILTER, FULL FLOW OIL GAUGE, OIL LEVEL LITERATURE ARRANGEMENT, OIL FILL FILTER, OIL BYPASS PAN, OIL PULLEY, ACCESSORY DRIVE ACCESSORIES, ELE STARTING SPACER, FAN PILOT PAINT MOTOR, STARTING ARRANGEMENT, TURBOCHARGER HOUSING, THERMOSTAT RESISTOR, CORROSION CONNECTION, WATER INLET CONNECTION, EXHAUST OUTLET

AEB 10.52 Page 13 of 45

CUSTOMER: ITEM NUMBER: PRIC 1088 DESC: GDRV D57 PRIC CUSTOMER CODE: 106 CUMMINS ITEM NUMBER GDRV 60 AP 5001 BC 5001 CB 5001 DA 5079 DF 5001 DL 5006 DO 5006 EE 5059 EH 5001 EM 5075 FA 5060 FF 5065 FH 5031 FR 5131 FV 5001 FW 5050 LF 5053 LG 5001 LT 5008 OB 5042 OF 5020 OP 5133 PU 5001 SB 5001 SP 5002 SS 5011 ST 5017 TB 5040 TH 5008 WF 5021 WI 5049 XS 5029

CUMMINS SPECIFICATION STANFAST FOR CENTRAL AREA ENGINE MODEL: QST30-G1 RATED HP: 1135 RPM: 1800 CONFIGURATION NO: D573001GX03 ID & TYPE 36 0 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6

ITEM DESCRIPTION QST30-G1 APPROVAL, AGENCY ENGINE, BASE DRIVE, ENGINE BARRING DAMPER, VIBRATION DRIVE, FRO GER TRA ACC LOCATION, DRAIN SOFTWARE, CUS INTERFACE ALTERNATOR MOUNTING, ALTERNATOR SUPPORT, FRONT ENGINE DRIVE, FAN FILTER, FUEL HOUSING, FLYWHEEL RATING, FUEL VALVE, FUEL SHUTOFF FLYWHEEL FILTER, FULL FLOW OIL GAUGE, OIL LEVEL LITERATURE ARRANGEMENT, OIL FILL FILTER, OIL BYPASS PAN, OIL PULLEY, ACCESSORY DRIVE ACCESSORIES, ELE STARTING SPACER, FAN PILOT PAINT MOTOR, STARTING ARRANGEMENT, TURBOCHARGER HOUSING, THERMOSTAT RESISTOR, CORROSION CONNECTION, WATER INLET CONNECTION, EXHAUST OUTLET

AEB 10.52 Page 14 of 45

CUSTOMER: ITEM NUMBER: PRIC 1089 DESC: GDRV D57 PRIC CUSTOMER CODE: 106 CUMMINS ITEM NUMBER GDRV 61 AP 5001 BC 5004 CB 5001 DA 5079 DF 5001 DL 5006 DO 5005 EE 5059 EH 5001 EM 5075 FA 5060 FF 5065 FH 5031 FR 5129 FV 5001 FW 5050 LF 5053 LG 5001 LT 5008 OB 5042 OF 5020 OP 5133 PU 5001 SB 5001 SP 5002 SS 5011 ST 5017 TB 5040 TH 5008 WF 5021 WI 5049 XS 5028

CUMMINS SPECIFICATION STANFAST FOR CENTRAL AREA ENGINE MODEL: QST30-G2 RATED HP: 1200 RPM: 1800 CONFIGURATION NO: D573001GX03 ID & TYPE 36 0 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6 27 6

ITEM DESCRIPTION QST30-G2 APPROVAL, AGENCY ENGINE, BASE DRIVE, ENGINE BARRING DAMPER, VIBRATION DRIVE, FRO GER TRA ACC LOCATION, DRAIN SOFTWARE, CUS INTERFACE ALTERNATOR MOUNTING, ALTERNATOR SUPPORT, FRONT ENGINE DRIVE, FAN FILTER, FUEL HOUSING, FLYWHEEL RATING, FUEL VALVE, FUEL SHUTOFF FLYWHEEL FILTER, FULL FLOW OIL GAUGE, OIL LEVEL LITERATURE ARRANGEMENT, OIL FILL FILTER, OIL BYPASS PAN, OIL PULLEY, ACCESSORY DRIVE ACCESSORIES, ELE STARTING SPACER, FAN PILOT PAINT MOTOR, STARTING ARRANGEMENT, TURBOCHARGER HOUSING, THERMOSTAT RESISTOR, CORROSION CONNECTION, WATER INLET CONNECTION, EXHAUST OUTLET

AEB 10.52 Page 15 of 45

Performance Data All performance data supplied in the following Performance Curves (C-4977, C-4978 and C-4979) is considered preliminary. These curves will remain preliminary for one year. This will allow a large enough statistical sample of data to be collected to confirm the engine’s performance with all engineering and manufacturing tolerances taken into account.

CUMMINS ENGINE COMPANY, INC Columbus, Indiana 47201

Basic Engine Model:

Curve Number:

QST30-G1

C-4977

Dry Exh.Manifold

Wet Exh.Manifold

Date:

CPL: 2124

CPL: N/A

29Jul96

ENGINE PERFORMANCE CURVE

Page No.

• • PRELIMINARY • • Engine Speed

Standby Power

Prime Power

Continuous Power

RPM

kWm

BHP

kWm

BHP

kWm

BHP

1500

701

940

634

850

485

650

1800

847

1135

768

1030

627

840

Engine Performance Data @ 1500 RPM OUTPUT POWER %

kWm

FUEL CONSUMPTION kg/ kWm·h

lb/ BHP·h

litre/ hour

U.S. Gal/ hour

940

0.205

0.338

169

44.7

BHP

1500 RPM

STANDBY POWER 100

701

PRIME POWER 100

634

850

0.205

0.337

153

40.3

75

476

638

0.208

0.342

116

30.7

50

317

425

0.211

0.347

78

20.7

25

158

212

0.237

0.390

44

11.7

0.207

0.341

118

31.2

CONTINUOUS POWER 100

485

650

Engine Performance Data @ 1800 RPM OUTPUT POWER %

kWm

BHP

FUEL CONSUMPTION kg/ kWm·h

lb/ BHP·h

litre/ hour

U.S. Gal/ hour

0.208

0.342

207

54.7

1800 RPM

STANDBY POWER 100

847

1135

PRIME POWER 100

768

1030

0.205

0.338

186

49.0

75

576

772

0.203

0.334

137

36.3

50

384

515

0.217

0.357

98

25.9

25

192

258

0.246

0.405

56

14.7

0.202

0.333

149

39.4

CONTINUOUS POWER 100

627

CONVERSIONS:

840

(Litres = U.S. Gal x 3.785)

(kWm = BHP x 0.746)

(U.S. Gal = Litres x 0.2642)

(BHP = kWm x 1.34)

Data shown above represent gross engine performance capabilities obtained and corrected in accordance with ISO-3046 conditions of 100 kPa (29.53. in. Hg.) barometric pressure [110 m (361 ft.) altitude], 25°C (77°F) air inlet temperature, and relative humidity of 30% with No. 2 diesel or a fuel corresponding to ASTM D2. See reverse side for application rating guidelines. The fuel consumption data is based on No. 2 diesel fuel weight at 0.85 kg/litre (7.1 lbs./U.S. gal). Power output curves are based on the engine operating with fuel system, water pump and lubricating oil pump; not included are battery charging alternator, fan, optional equipment and driven components.

TECHNICAL DATA DEPT.

CERTIFIED WITHIN 5%

CHIEF ENGINEER

QST30-G1

• • PRELIMINARY • • POWER RATING APPLICATION GUIDELINES FOR GENERATOR DRIVE ENGINES These guidelines have been formulated to ensure proper application of generator drive engines in A.C. generator set installations. Generator drive engines are not designed for and shall not be used in variable speed D.C. generator set applications. STANDBY POWER RATING is applicable for supplying emergency power for the duration of the utility power outage. No overload capability is available for this rating. Under no condition is an engine allowed to operate in parallel with the public utility at the Standby Power rating. This rating should be applied where reliable utility power is available. A standby rated engine should be sized for a maximum of an 80% average load factor and 200 hours of operation per year. This includes less than 25 hours per year at the Standby Power rating. Standby ratings should never be applied except in true emergency power outages. Negotiated power outages contracted with a utility company are not considered an emergency.

PRIME POWER RATING is applicable for supplying electric power in lieu of commercially purchased power. Prime Power applications must be in the form of one of the following two categories: UNLIMITED TIME RUNNING PRIME POWER Prime Power is available for an unlimited number of hours per year in a variable load application. Variable load should not exceed a 70% average of the Prime Power rating during any operating period of 250 hours. The total operating time at 100% Prime Power shall not exceed 500 hours per year. A 10% overload capability is available for a period of 1 hour within a 12 hour period of operation. Total operating time at the 10% overload power shall not exceed 25 hours per year. LIMITED TIME RUNNING PRIME POWER

CONTINUOUS POWER RATING is applicable for supplying utility power at a constant 100% load for an unlimited number of hours per year. No overload capability is available for this rating.

Prime Power is available for a limited number of hours in a non-variable load application. It is intended for use in situations where power outages are contracted, such as in utility power curtailment. Engines may be operated in parallel to the public utility up to 750 hours per year at power levels never to exceed the Prime Power rating. The customer should be aware, however, that the life of any engine will be reduced by this constant high load operation. Any operation exceeding 750 hours per year at the Prime Power rating should use the Continuous Power rating.

Reference Standards: BS-5514 and DIN-6271 standards are based on ISO-3046.

Operation At Elevated Temperature And Altitude: The engine may be operated at: 1800 RPM up to 5000 ft. (1524 m) and 95 °F (35 °C) without power deration. 1500 RPM up to 5000 ft. (1524 m) and 95 °F (35 °C) without power deration. Note: For altitudes less than 1000 ft (305 m), the engine may be operated at 1500 RPM and 1800 RPM up to 125 °F (52 °C) without power deration. For sustained operation above these conditions, derate by 4% per 1,000 ft. (300 m), and 1% per 10 °F (2% per 11°C).

• •PRELIMINARY• • ENGINE MODEL:

QST30-G1

Cummins Engine Company, Inc. Engine Data Sheet CONFIGURATION NUMBER: D573001GX03

INSTALLATION DIAGRAM • Fan to Flywheel : 3626434 • Heat Exchanger Cooled: N.A.

DATA SHEET: DATE: PERFORMANCE CURVE:

DS-4977 29Jul96 C-4977

CPL NUMBER • Dry Type Exhaust Manifold : 2124 • Water Cooled Exhaust Manifold: N/A

GENERAL ENGINE DATA Type ...................................................................................................................................... Aspiration .............................................................................................................................. Bore x Stroke ...................................................................................... — mm x mm (in x in) Displacement ..................................................................................................... — liter (in3) Compression Ratio ...............................................................................................................

4 Cycle; 50° Vee; 12 Cylinder Diesel Turbocharged and Aftercooled 140 x165 (5.51 x 6.50) 30.48 (1860) 14.0: 1 DRY TYPE EXHAUST MANIFOLD

Dry Weight Fan to Flywheel Engine................................................................................... Heat Exchanger Cooled Engine ...................................................................... Wet Weight Fan to Flywheel Engine................................................................................... Heat Exchanger Cooled Engine ......................................................................

— kg (lb) — kg (lb)

2967

(6540) N/A

— kg (lb) — kg (lb)

3062

(6750) N/A

Moment of Inertia of Rotating Components • with FW 5050 Flywheel ................................................................. — kg • m2 (lbm • ft2) Center of Gravity from Rear Face of Flywheel Housing (FH 5031) .................... — mm (in) Center of Gravity above Crankshaft Centerline .................................................. — mm (in) Maximum Static Loading at Rear Main Bearing.................................................... — kg (lb)

WATER COOLED EXHAUST MANIFOLD

N/A

8.7 845 195 950

(206) (33.3) (7.7) (2100)

3100

(2286)

76

(3.0)

635 254 381

(25) (10) (15)

ENGINE MOUNTING Maximum Bending Moment at Rear Face of Block..................................... — N • m (lb • ft)

EXHAUST SYSTEM Maximum Back Pressure ......................................................................... — mm Hg (in Hg)

AIR INDUCTION SYSTEM Maximum Intake Air Restriction • with Dirty Filter Element.................................................................. — mm H2O (in H2O) • with Normal Duty Air Cleaner and Clean Filter Element................. — mm H2O (in H2O) • with Heavy Duty Air Cleaner and Clean Filter Element .................. — mm H2O (in H2O)

DRY TYPE EXHAUST MANIFOLD

WATER COOLED EXHAUST MANIFOLD

COOLING SYSTEM Coolant Capacity — Engine Only ............................................................... — liter (US gal) — with HX ____ Heat Exchanger .................................... — liter (US gal)

85

(22.4) N/A

Maximum Coolant Friction Head External to Engine— 1800 RPM................... — kPa (psi) — 1500 RPM...................... — kPa (psi) Maximum Static Head of Coolant Above Engine Crank Centerline ........................ — m (ft) Standard Thermostat (modulating) Range........................................................... — °C (°F) Minimum Pressure Cap .................................................................................... — kPa (psi) Maximum Top Tank Temperature for Stand-by / Prime Power ........................... — °C (°F) Minimum Raw Water Flow @ 90°F to HX ____ Heat Exchanger .... — liter / min (US gpm) Maximum Raw Water Inlet Pressure at HX ____ Heat Exchanger................... — kPa (psi)

69.0 48.0 14 82 - 95 69.0 104 / 100

N/A

(10.0) (7.0) (46) (180 - 203) (10) (220 / 212) N/A N/A

LUBRICATION SYSTEM Oil [email protected] Idle Speed ................................................................................ — kPa (psi) @ Governed Speed ...................................................................... — kPa (psi) Maximum Oil Temperature .................................................................................. — °C (°F) Oil Capacity with OP 5133 Oil Pan: High - Low .......................................... — liter (US gal) Total System Capacity (including By-pass Filter) ....................................... — liter (US gal) Angularity of OP 5133 Oil Pan — Front Down ...................................................................... — Front Up .......................................................................... — Side to Side .....................................................................

166 (24.0) 310 - 386 (45.0 - 56.0) 121 (250) 133 - 114 (35 - 30) 154 (40.7) 15° 15° 30°

FUEL SYSTEM Type Injection System........................................................................................................................................ Bosch P8500 Direct Injection Maximum Restriction at Lift Pump— with Clean Fuel Filter................................................... — mm Hg (in Hg) 102 (4) — with Dirty Fuel Filter............................... — mm Hg (in Hg) 203 (8) Maximum Allowable Head on Injector Return Line (Consisting of Friction Head and Static Head)— mm Hg (in Hg) 508 (20) Maximum Fuel Flow to Injection Pumps (LB and RB combined) — 1800 RPM ................ — liter / hr (US gph) 375 (99) Maximum Fuel Flow to Injection Pumps (LB and RB combined) — 1500 RPM ............... — liter / hr (US gph) 356 (94) Maximum Drain Flow (@ Minimum load)— 1800 RPM— liter / hr (US gph) ..................................................... 356 (94) — 1500 RPM— liter / hr (US gph)................................................................ 341 (90)

ELECTRICAL SYSTEM Cranking Motor (Heavy Duty, Positive Engagement) ............................................................................. — volt Battery Charging System, Negative Ground.................................................................................... — ampere Maximum Allowable Resistance of Cranking Circuit.............................................................................. — ohm Minimum Recommended Battery Capacity • Cold Soak @ 50°F (10°C) and above..................................................................................... — 0°F CCA • Cold Soak @ 32°F to 50°F (0°C to 10°C)............................................................................... — 0°F CCA • Cold Soak @ 0°F to 32°F (-18°C to 0°C)................................................................................ — 0°F CCA

24 35 0.002 1200 1280 1800

COLD START CAPABILITY Minimum Ambient Temperature for Aided (with Coolant Heater) Cold Start within 10 seconds........................ Minimum Ambient Temperature for Unaided Cold Start ....................................................................................

— °C (°F) -10(14) — °C (°F) 1 (34)

PERFORMANCE DATA All data is based on:

• Engine operating with fuel system, water pump, lubricating oil pump, air cleaner and exhaust silencer; not included are battery charging alternator, fan, and optional driven components. • Engine operating with fuel corresponding to grade No. 2-D per ASTM D975. • ISO 3046, Part 1, Standard Reference Conditions of: Barometric pressure : 99 kPa (29.3 in Hg) Air Temperature : 25°C (77°F) Altitude : 110 m (361 ft) Relative Humidity : 30%

Steady-state Stability Band at any Constant Load .................................................................................... —% Estimated Free Field Sound Pressure Level of a Typical Generator-set; Excludes Exhaust Noise; at Rated Load and 7.5 m (24.6 ft); 1800 RPM / 1500 RPM ................... — dBA Exhaust Noise at 1 m Horizontally from Centerline of Exhaust Pipe Outlet Upwards at 45° ................. — dBA

STAND-BY

60 Hz Governed Engine Speed ............................................ — RPM Engine Idle Speed ..................................................... — RPM Gross Engine Power Output............................ — kWm (BHP) Brake Mean Effective Pressure............................ — kPa (psi) Piston Speed ................................................ — m / s (ft / min) Friction Horsepower .......................................... — kWm (HP) Engine Water Flow at Stated Friction Head External to Engine: • 4 psi Friction Head............................ — liter / s (US gpm) • Maximum Friction Head (5 psi)......... — liter / s (US gpm)

50 Hz

+/- 0.25 TBD / TBD TBD

PRIME POWER

60 Hz

50 Hz

1800 700 - 900 847 (1135) 1855 (269) 1949 (9.9) 82 (110)

1500 700 - 900 701 (940) 1841 (267) 1634 (8.3) 58 (78)

1800 700 - 900 768 (1030) 1682 (244) 1949 (9.9) 82 (110)

1500 700 - 900 634 (850) 1662 (241) 1634 (8.3) 58 (78)

N.A. 15.0 (235)

N.A. 12.5 (196)

N.A. 15.0 (235)

N.A. 12.5 (196)

1098 (2325) 480 (895) 2908 (6160) 26.3: 1 126 (7155) 490(27860) 634(36060)

760 (1610) 538 (1000) 2170 (4596) 22.3 : 1 102 (5795) 377(21430) 518(29477)

1022 (2165) 455 (850) 2620 (5546) 27.1 : 1 112 (6395) 431 (24525) 562 (31950)

708 (1500) 527 (980) 1995 (4225) 22.6 : 1 93 (5290) 326(18570) 496(28215)

Engine Data with Dry Type Exhaust Manifold Intake Air Flow.................................................— liter / s (cfm) Exhaust Gas Temperature ...................................... — °C (°F) Exhaust Gas Flow ...........................................— liter / s (cfm) Air to Fuel Ratio.......................................................— air: fuel Radiated Heat to Ambient ......................— kWm (BTU / min) Heat Rejection to Coolant .......................— kWm (BTU / min) Heat Rejection to Exhaust.......................— kWm (BTU / min)

Engine Data with Water Cooled Exhaust Manifold

• • PRELIMINARY • • Water cooled exhaust manifold is not available on this engine. N.A. - Data is not available N/A - Not Applicable to this engine TBD - To be determined

CUMMINS ENGINE COMPANY, INC.

ENGINE MODEL: DATA SHEET: DATE: CURVE NO.:

Columbus, Indiana 47202-3005

QST30-G1 DS-4977 29Jul96 C-4977

CUMMINS ENGINE COMPANY, INC Columbus, Indiana 47201

Basic Engine Model:

Curve Number:

QST30-G1

C-4977

Dry Exh.Manifold

Wet Exh.Manifold

Date:

CPL: 2124

CPL: N/A

29Jul96

EXHAUST EMISSIONS DATA SHEET

Page No.

• • PRELIMINARY • • Engine Speed

Standby Power

Prime Power

Continuous Power

RPM

kWm

BHP

kWm

BHP

kWm

BHP

1500

701

940

634

850

485

650

1800

847

1135

768

1030

627

840

Exhaust Emissions Data @ 1500 RPM Standby Power Component

g/BHP·h

mg/m3

Prime Power PPM

g/BHP·h

mg/m3

Continuous Power PPM

g/BHP·h

mg/m3

PPM

HC (Total Unburned Hydrocarbons) 0.17

89.6

144

0.18

100

161

0.25

125

200

NOx (Oxides of Nitrogen as NO2)

9.67

4762

2319

9.39

4771

2324

10.44

5212

2538

CO (Carbon Monoxide)

0.22

102

81

0.22

109

87

0.18

91

73

PM (Particulate Matter)

0.09

22.9

TBD

0.08

19.3

TBD

0.09

17.5

TBD

SO2 (Sulfur Dioxide)

0.58

TBD

TBD

0.56

TBD

TBD

0.57

TBD

TBD

Exhaust Emissions Data @ 1800 RPM Standby Power Component

g/BHP·h

mg/m3

Prime Power PPM

g/BHP·h

mg/m3

Continuous Power PPM

g/BHP·h

mg/m3

PPM

HC (Total Unburned Hydrocarbons) 0.22

106

172

0.23

114

185

0.24

118

188

NOx (Oxides of Nitrogen as NO2)

7.97

3785

1840

8.23

4046

1971

8.87

4376

2132

CO (Carbon Monoxide)

0.14

68

54

0.12

57

46

0.11

54

42

PM (Particulate Matter)

0.09

16.2

TBD

0.09

13.6

TBD

0.09

11.6

TBD

SO2 (Sulfur Dioxide)

0.60

TBD

TBD

0.58

TBD

TBD

0.58

TBD

TBD

CONVERSIONS:

(g/kWm·h = g/BHP·h x 1.34)

NOTE: mg/m3 and PPM numbers are corrected to 5% O2 content. Data was recorded during steady-state rated engine speed (± 25 RPM) with full load (± 2%). Pressures, temperatures, and emission rates were stabilized. Fuel Specification: Fuel Temperature: Intake Air Temperature: Barometric Pressure: Humidity:

ASTM D975 No. 2-D diesel fuel with 0.2% sulfur content (by weight) and 42-50 cetane number. 99 °F ± 9°(at fuel pump inlet) 77 °F ± 9° 29.6 in. Hg ± 1 in. Hg NOx measurement corrected to 75 grains H2O/lb. dry air

The HC, NOx, and CO emissions data tabulated here were taken from a single engine under the test conditions shown above. Data for the other components are estimates. This data is subject to instrumentation, measurement, and engine-to-engine variability. Engine operation with excessive air intake or exhaust restriction beyond published maximum limits, or with improper maintenance, may result in elevated emission levels. Specifications May Change Without Notice

CUMMINS ENGINE COMPANY, INC Columbus, Indiana 47201

Basic Engine Model:

Curve Number:

QST30-G2

C-4978

Dry Exh.Manifold

Wet Exh.Manifold

Date:

CPL: 2124

CPL: N/A

29Jul96

ENGINE PERFORMANCE CURVE

Page No.

• • PRELIMINARY • • Engine Speed

Standby Power

Prime Power

Continuous Power

RPM

kWm

BHP

kWm

BHP

kWm

BHP

1500

768

1030

698

935

485

650

1800

895

1200

809

1085

627

840

Engine Performance Data @ 1500 RPM OUTPUT POWER %

kWm

BHP

FUEL CONSUMPTION kg/ kWm·h

lb/ BHP·h

litre/ hour

U.S. Gal/ hour

0.207

0.340

187

49.3

1500 RPM

STANDBY POWER 100

768

1030

PRIME POWER 100

698

935

0.205

0.337

168

44.4

75

523

701

0.208

0.342

128

33.8

50

349

468

0.213

0.350

87

23.1

25

174

234

0.233

0.383

48

12.6

0.207

0.341

118

31.2

CONTINUOUS POWER 100

485

650

Engine Performance Data @ 1800 RPM OUTPUT POWER %

kWm

BHP

FUEL CONSUMPTION kg/ kWm·h

lb/ BHP·h

litre/ hour

U.S. Gal/ hour

0.208

0.342

219

57.8

1800 RPM

STANDBY POWER 100

895

1200

PRIME POWER 100

809

1085

0.207

0.340

197

51.9

75

607

814

0.203

0.334

145

38.3

50

404

542

0.213

0.351

102

26.8

25

202

271

0.242

0.399

58

15.2

0.202

0.333

149

39.4

CONTINUOUS POWER 100

627

CONVERSIONS:

840

(Litres = U.S. Gal x 3.785)

(kWm = BHP x 0.746)

(U.S. Gal = Litres x 0.2642)

(BHP = kWm x 1.34)

Data shown above represent gross engine performance capabilities obtained and corrected in accordance with ISO-3046 conditions of 100 kPa (29.53. in. Hg.) barometric pressure [110 m (361 ft.) altitude], 25°C (77°F) air inlet temperature, and relative humidity of 30% with No. 2 diesel or a fuel corresponding to ASTM D2. See reverse side for application rating guidelines. The fuel consumption data is based on No. 2 diesel fuel weight at 0.85 kg/litre (7.1 lbs./U.S. gal). Power output curves are based on the engine operating with fuel system, water pump and lubricating oil pump; not included are battery charging alternator, fan, optional equipment and driven components.

TECHNICAL DATA DEPT.

CERTIFIED WITHIN 5%

CHIEF ENGINEER

QST30-G2

PRELIMINARY POWER RATING APPLICATION GUIDELINES FOR GENERATOR DRIVE ENGINES These guidelines have been formulated to ensure proper application of generator drive engines in A.C. generator set installations. Generator drive engines are not designed for and shall not be used in variable speed D.C. generator set applications. STANDBY POWER RATING is applicable for supplying emergency power for the duration of the utility power outage. No overload capability is available for this rating. Under no condition is an engine allowed to operate in parallel with the public utility at the Standby Power rating.

This rating should be applied where reliable utility power is available. A standby rated engine should be sized for a maximum of an 80% average load factor and 200 hours of operation per year. This includes less than 25 hours per year at the Standby Power rating. Standby ratings should never be applied except in true emergency power outages. Negotiated power outages contracted with a utility company are not considered an emergency.

PRIME POWER RATING is applicable for supplying electric power in lieu of commercially purchased power. Prime Power applications must be in the form of one of the following two categories: UNLIMITED TIME RUNNING PRIME POWER Prime Power is available for an unlimited number of hours per year in a variable load application. Variable load should not exceed a 70% average of the Prime Power rating during any operating period of 250 hours. The total operating time at 100% Prime Power shall not exceed 500 hours per year. A 10% overload capability is available for a period of 1 hour within a 12 hour period of operation. Total operating time at the 10% overload power shall not exceed 25 hours per year. LIMITED TIME RUNNING PRIME POWER

CONTINUOUS POWER RATING is applicable for supplying utility power at a constant 100% load for an unlimited number of hours per year. No overload capability is available for this rating.

Prime Power is available for a limited number of hours in a non-variable load application. It is intended for use in situations where power outages are contracted, such as in utility power curtailment. Engines may be operated in parallel to the public utility up to 750 hours per year at power levels never to exceed the Prime Power rating. The customer should be aware, however, that the life of any engine will be reduced by this constant high load operation. Any operation exceeding 750 hours per year at the Prime Power rating should use the Continuous Power rating.

Reference Standards: BS-5514 and DIN-6271 standards are based on ISO-3046.

Operation At Elevated Temperature And Altitude: The engine may be operated at: 1800 RPM up to 5000 ft. (1524 m) and 95 °F (35 °C) without power deration. 1500 RPM up to 5000 ft. (1524 m) and 95 °F (35 °C) without power deration.

Note: For altitudes less than 1000 ft (305 m), the engine may be operated at 1500 RPM and 1800 RPM up to 125 °F (52 °C) without power deration. For sustained operation above these conditions, derate by 4% per 1,000 ft. (300 m), and 1% per 10 °F (2% per 11 °C).

• • PRELIMINARY• •

Cummins Engine Company, Inc. Engine Data Sheet

ENGINE MODEL:

QST30-G2

CONFIGURATION NUMBER: D573001GX03

INSTALLATION DIAGRAM • Fan to Flywheel : 3626434 • Heat Exchanger Cooled: N/A

DATA SHEET: DATE: PERFORMANCE CURVE:

DS-4978 29Jul96 C-4978

CPL NUMBER • Dry Type Exhaust Manifold : 2124 • Water Cooled Exhaust Manifold: N/A

GENERAL ENGINE DATA Type ...................................................................................................................................... Aspiration .............................................................................................................................. Bore x Stroke ...................................................................................... — mm x mm (in x in) Displacement ..................................................................................................... — liter (in3) Compression Ratio ...............................................................................................................

4 Cycle; 50° Vee; 12 Cylinder Diesel Turbocharged and Aftercooled 140 x165 (5.51 x 6.50) 30.48 (1860) 14.0 : 1 DRY TYPE EXHAUST MANIFOLD

Dry Weight Fan to Flywheel Engine................................................................................... Heat Exchanger Cooled Engine ...................................................................... Wet Weight Fan to Flywheel Engine................................................................................... Heat Exchanger Cooled Engine ......................................................................

— kg (lb) — kg (lb)

2967

(6540) N/A

— kg (lb) — kg (lb)

3062

(6750) N/A

Moment of Inertia of Rotating Components • with FW 5050 Flywheel ................................................................. — kg • m2 (lbm • ft2) Center of Gravity from Rear Face of Flywheel Housing (FH 5031) .................... — mm (in) Center of Gravity above Crankshaft Centerline .................................................. — mm (in) Maximum Static Loading at Rear Main Bearing.................................................... — kg (lb)

WATER COOLED EXHAUST MANIFOLD

N/A

8.7 845 195 950

(206) (33.3) (7.7) (2100)

3100

(2286)

76

(3.0)

635 254 381

(25) (10) (15)

ENGINE MOUNTING Maximum Bending Moment at Rear Face of Block..................................... — N • m (lb • ft)

EXHAUST SYSTEM Maximum Back Pressure ......................................................................... — mm Hg (in Hg)

AIR INDUCTION SYSTEM Maximum Intake Air Restriction • with Dirty Filter Element.................................................................. — mm H2O (in H2O) • with Normal Duty Air Cleaner and Clean Filter Element................. — mm H2O (in H2O) • with Heavy Duty Air Cleaner and Clean Filter Element .................. — mm H2O (in H2O)

DRY TYPE EXHAUST MANIFOLD

WATER COOLED EXHAUST MANIFOLD

COOLING SYSTEM Coolant Capacity — Engine Only ............................................................... — liter (US gal) — with HX ____ Heat Exchanger .................................... — liter (US gal)

85

(22.4) N/A

Maximum Coolant Friction Head External to Engine— 1800 RPM................... — kPa (psi) — 1500 RPM...................... — kPa (psi) Maximum Static Head of Coolant Above Engine Crank Centerline ........................ — m (ft) Standard Thermostat (modulating) Range........................................................... — °C (°F) Minimum Pressure Cap .................................................................................... — kPa (psi) Maximum Top Tank Temperature for Stand-by / Prime Power ........................... — °C (°F) Minimum Raw Water Flow @ 90°F to HX ____ Heat Exchanger .... — liter / min (US gpm) Maximum Raw Water Inlet Pressure at HX ____ Heat Exchanger................... — kPa (psi)

69.0 48.0 14 82 - 95 69.0 104 / 100

N/A

(10.0) (7.0) (5.0) (180 - 203) (10) (220 / 212) N/A N/A

LUBRICATION SYSTEM Oil [email protected] Idle Speed ................................................................................ — kPa (psi) @ Governed Speed ...................................................................... — kPa (psi) Maximum Oil Temperature .................................................................................. — °C (°F) Oil Capacity with OP 5133 Oil Pan: High - Low .......................................... — liter (US gal) Total System Capacity (including By-pass Filter) ....................................... — liter (US gal) Angularity of OP 5133 Oil Pan — Front Down ...................................................................... — Front Up .......................................................................... — Side to Side .....................................................................

166 (24.0) 310 - 386 (45.0 - 56.0) 121 (250) 133 - 114 (35 - 30) 154 (40.7) 15° 15° 30°

FUEL SYSTEM Type Injection System........................................................................................................................................ Bosch P8500 Direct Injection Maximum Restriction at Lift Pump— with Clean Fuel Filter................................................... — mm Hg (in Hg) 102 (4) — with Dirty Fuel Filter ....................... — mm Hg (in Hg) 203 (8) Maximum Allowable Head on Injector Return Line (Consisting of Friction Head and Static Head)— mm Hg (in Hg) 508 (20) Maximum Fuel Flow to Injection Pumps (LB and RB combined)— 1800 RPM ................. — liter / hr (US gph) 382 (101) — 1500 RPM ....................... — liter / hr (US gph) 370 (98) Maximum Drain Flow (@ Minimum load)— 1800 RPM ..................................................... — liter / hr (US gph) 363 (96) — 1500 RPM ..................................................... — liter / hr (US gph) 356 (94)

ELECTRICAL SYSTEM Cranking Motor (Heavy Duty, Positive Engagement) ............................................................................. — volt Battery Charging System, Negative Ground.................................................................................... — ampere Maximum Allowable Resistance of Cranking Circuit.............................................................................. — ohm Minimum Recommended Battery Capacity • Cold Soak @ 50°F (10°C) and above..................................................................................... — 0°F CCA • Cold Soak @ 32°F to 50°F (0°C to 10°C)............................................................................... — 0°F CCA • Cold Soak @ 0°F to 32°F (-18°C to 0°C)................................................................................ — 0°F CCA

24 35 0.002 1200 1280 1800

COLD START CAPABILITY Minimum Ambient Temperature for Aided (with Coolant Heater) Cold Start within 10 seconds........................ Minimum Ambient Temperature for Unaided Cold Start ....................................................................................

— °C (°F) -10(14) — °C (°F) 1 (34)

PERFORMANCE DATA All data is based on:

• Engine operating with fuel system, water pump, lubricating oil pump, air cleaner and exhaust silencer; not included are battery charging alternator, fan, and optional driven components. • Engine operating with fuel corresponding to grade No. 2-D per ASTM D975. • ISO 3046, Part 1, Standard Reference Conditions of: Barometric pressure : 99 kPa (29.3 in Hg) Air Temperature : 25°C (77°F) Altitude : 110 m (361 ft) Relative Humidity : 30%

Steady-state Stability Band at any Constant Load .................................................................................... —% Estimated Free Field Sound Pressure Level of a Typical Generator-set; Excludes Exhaust Noise; at Rated Load and 7.5 m (24.6 ft); 1800 RPM / 1500 RPM ................... — dBA Exhaust Noise at 1 m Horizontally from Centerline of Exhaust Pipe Outlet Upwards at 45° ................. — dBA

STAND-BY

60 Hz Governed Engine Speed ............................................ — RPM Engine Idle Speed ..................................................... — RPM Gross Engine Power Output............................ — kWm (BHP) Brake Mean Effective Pressure............................ — kPa (psi) Piston Speed ................................................ — m / s (ft / min) Friction Horsepower .......................................... — kWm (HP) Engine Water Flow at Stated Friction Head External to Engine: • 4 psi Friction Head............................ — liter / s (US gpm) • Maximum Friction Head (5 psi)......... — liter / s (US gpm)

50 Hz

+/- 0.25 TBD / TBD TBD

PRIME POWER

60 Hz

50 Hz

1800 700 - 900 895 (1200) 1958 (284) 1949 (9.9) 82 (110)

1500 700 - 900 768 (1030) 2013 (292) 1634 (8.3) 58 (78)

1800 700 - 900 809 (1085) 1772 (257) 1949 (9.9) 82 (110)

1500 700 - 900 698 (935) 1827 (265) 1634 (8.3) 58 (978)

N.A. 15.0 (235)

N.A. 12.5 (196)

N.A. 15.0 (235)

N.A. 12.5 (196)

1152 (2440) 496 (924) 3118 (6603) 25.8 : 1 132 (7510) 516(29355) 657(37380)

864 (1830) 557 (1035) 2526 (5349) 22.1 : 1 112 (6370) 424(24120) 562(31980)

1072 (2270) 467 (873) 2794 (5917) 26.7 : 1 119 (6750) 469 (26675) 581 (33045)

776 (1644) 538 (1000) 2216 (4693) 22.3 : 1 101 (5765) 382(21750) 508(28908)

Engine Data with Dry Type Exhaust Manifold Intake Air Flow.................................................— liter / s (cfm) Exhaust Gas Temperature ...................................... — °C (°F) Exhaust Gas Flow ...........................................— liter / s (cfm) Air to Fuel Ratio.......................................................— air: fuel Radiated Heat to Ambient ......................— kWm (BTU / min) Heat Rejection to Coolant .......................— kWm (BTU / min) Heat Rejection to Exhaust.......................— kWm (BTU / min)

• • PRELIMINARY• •

Engine Data with Water Cooled Exhaust Manifold Water cooled exhaust manifold is not available on this engine. N.A. - Data is not available N/A - Not Applicable to this engine TBD - To be determined

CUMMINS ENGINE COMPANY, INC.

ENGINE MODEL: DATA SHEET: DATE: CURVE NO.:

Columbus, Indiana 47202-3005

QST30-G2 DS-4978 29Jul96 C-4978

CUMMINS ENGINE COMPANY, INC Columbus, Indiana 47201

EXHAUST EMISSIONS DATA SHEET

Basic Engine Model:

Curve Number:

QST30-G2

C-4978

Dry Exh.Manifold

Wet Exh.Manifold

Date:

CPL: 2124

CPL: N/A

29Jul96

Page No.

• • PRELIMINARY • • Engine Speed

Standby Power

Prime Power

Continuous Power

RPM

kWm

BHP

kWm

BHP

kWm

BHP

1500

768

1030

698

935

485

650

1800

895

1200

809

1085

627

840

Exhaust Emissions Data @ 1500 RPM Standby Power Component

g/BHP·h

mg/m3

Prime Power PPM

g/BHP·h

mg/m3

Continuous Power PPM

g/BHP·h

mg/m3

PPM

HC (Total Unburned Hydrocarbons) 0.19

90

145

0.19

90

146

0.25

125

200

NOx (Oxides of Nitrogen as NO2)

8.67

4222

2057

9.7

4771

2324

10.44

5212

2538

CO (Carbon Monoxide)

0.22

108

86

0.22

102

82

0.18

91

73

PM (Particulate Matter)

0.09

24.4

TBD

0.09

22.9

TBD

0.09

17.5

TBD

SO2 (Sulfur Dioxide)

0.58

TBD

TBD

0.58

TBD

TBD

0.57

TBD

TBD

Exhaust Emissions Data @ 1800 RPM Standby Power Component

g/BHP·h

mg/m3

Continuous Power

mg/m3

PPM

HC (Total Unburned Hydrocarbons) 0.35

167

269

0.23

111

179

0.24

118

188

NOx (Oxides of Nitrogen as NO2)

7.70

3625

1767

8.08

3899

1899

8.87

4376

2132

CO (Carbon Monoxide)

0.16

75

60

0.12

63

50

0.11

54

42

PM (Particulate Matter)

0.13

17.8

TBD

0.09

15.2

TBD

0.09

11.6

TBD

SO2 (Sulfur Dioxide)

0.60

TBD

TBD

0.59

TBD

TBD

0.58

TBD

TBD

CONVERSIONS:

g/BHP·h

Prime Power PPM

g/BHP·h

mg/m3

PPM

(g/kWm·h = g/BHP·h x 1.34)

NOTE: mg/m3 and PPM numbers are corrected to 5% O2 content. Data was recorded during steady-state rated engine speed (± 25 RPM) with full load (± 2%). Pressures, temperatures, and emission rates were stabilized. Fuel Specification: Fuel Temperature: Intake Air Temperature: Barometric Pressure: Humidity:

ASTM D975 No. 2-D diesel fuel with 0.2% sulfur content (by weight) and 42-50 cetane number. 99 °F ± 9°(at fuel pump inlet) 77 °F ± 9° 29.6 in. Hg ± 1 in. Hg NOx measurement corrected to 75 grains H2O/lb. dry air

The HC, NOx, and CO emissions data tabulated here were taken from a single engine under the test conditions shown above. Data for the other components are estimates. This data is subject to instrumentation, measurement, and engine-to-engine variability. Engine operation with excessive air intake or exhaust restriction beyond published maximum limits, or with improper maintenance, may result in elevated emission levels. Specifications May Change Without Notice

CUMMINS ENGINE COMPANY, INC Columbus, Indiana 47201

Basic Engine Model:

Curve Number:

QST30-G3

C-4979

Dry Exh.Manifold

Wet Exh.Manifold

Date:

CPL: 2212

CPL: N/A

29Jul96

ENGINE PERFORMANCE CURVE

Page No.

• • PRELIMINARY • • Engine Speed

Standby Power

Prime Power

RPM

kWm

BHP

1500

-----

-----

1800

1000

1340

kWm

Continuous Power BHP

Not available for Prime Power Applications

kWm

BHP

Not available for Continuous Power Applications

Engine Performance Data @ 1500 RPM

Not Available at 1500 RPM

Not Available at 1500 RPM

Engine Performance Data @ 1800 RPM OUTPUT POWER %

kWm

BHP

FUEL CONSUMPTION kg/ kWm·h

lb/ BHP·h

litre/ hour

U.S. Gal/ hour

1800 RPM

STANDBY POWER 100

1000

1340

0.204

0.336

240

63.4

90

900

1206

0.200

0.330

212

56.0

75

750

1005

0.203

0.334

179

47.2

50

500

670

0.203

0.334

119

31.5

25

250

335

0.236

0.388

69

18.3

CONTINUOUS POWER Not Available for Continuous Power Applications PRIME POWER

CONVERSIONS:

(Litres = U.S. Gal x 3.785)

(kWm = BHP x 0.746)

(U.S. Gal = Litres x 0.2642)

(BHP = kWm x 1.34)

Data shown above represent gross engine performance capabilities obtained and corrected in accordance with ISO-3046 conditions of 100 kPa (29.53. in. Hg.)barometric pressure [110 m (361 ft.) altitude], 25°C (77°F) air inlet temperature, and relative humidity of 30% with No. 2 diesel or a fuel corresponding to ASTM D2. See reverse side for application rating guidelines. The fuel consumption data is based on No. 2 diesel fuel weight at 0.85 kg/litre (7.1 lbs./U.S. gal). Power output curves are based on the engine operating with fuel system, water pump and lubricating oil pump; not included are battery charging alternator, fan, optional equipment and driven components.

TECHNICAL DATA DEPT.

CERTIFIED WITHIN 5%

CHIEF ENGINEER

QST30-G3

PRELIMINARY POWER RATING APPLICATION GUIDELINES FOR GENERATOR DRIVE ENGINES These guidelines have been formulated to ensure proper application of generator drive engines in A.C. generator set installations. Generator drive engines are not designed for and shall not be used in variable speed D.C. generator set applications. STANDBY POWER RATING is applicable for supplying emergency power for the duration of the utility power outage. No overload capability is available for this rating. Under no condition is an engine allowed to operate in parallel with the public utility at the Standby Power rating. This rating should be applied where reliable utility power is available. A standby rated engine should be sized for a maximum of an 80% average load factor and 200 hours of operation per year. This includes less than 25 hours per year at the Standby Power rating. Standby ratings should never be applied except in true emergency power outages. Negotiated power outages contracted with a utility company are not considered an emergency.

PRIME POWER RATING is applicable for supplying electric power in lieu of commercially purchased power. Prime Power applications must be in the form of one of the following two categories: UNLIMITED TIME RUNNING PRIME POWER

Prime Power is available for an unlimited number of hours per year in a variable load application. Variable load should not exceed a 70% average of the Prime Power rating during any operating period of 250 hours. The total operating time at 100% Prime Power shall not exceed 500 hours per year. A 10% overload capability is available for a period of 1 hour within a 12 hour period of operation. Total operating time at the 10% overload power shall not exceed 25 hours per year LIMITED TIME RUNNING PRIME POWER

CONTINUOUS POWER RATING is applicable for supplying utility power at a constant 100% load for an unlimited number of hours per year. No overload capability is available for this rating.

Prime Power is available for a limited number of hours in a non-variable load application. It is intended for use in situations where power outages are contracted, such as in utility power curtailment. Engines may be operated in parallel to the public utility up to 750 hours per year at power levels never to exceed the Prime Power rating. The customer should be aware, however, that the life of any engine will be reduced by this constant high load operation. Any operation exceeding 750 hours per year at the Prime Power rating should use the

Reference Standards: BS-5514 and DIN-6271 standards are based on ISO-3046.

Operation At Elevated Temperature And Altitude: The engine may be operated at: 1800 RPM up to 5000 ft. (1524 m) and 95 °F (35 °C) without power deration.

Note: For altitudes less than 1000 ft (305 m), the engine may be operated at 1800 RPM up to 125 °F (52 °C) without power deration. For sustained operation above these conditions, derate by 4% per 1,000 ft. (300 m), and 1% per 10 °F (2% per 11 °C).

• • PRELIMINARY• •

Cummins Engine Company, Inc. Engine Data Sheet

ENGINE MODEL:

QST30-G3

CONFIGURATION NUMBER: D573001GX03

INSTALLATION DIAGRAM • Fan to Flywheel : 3170248 • Heat Exchanger Cooled: N/A

DATA SHEET: DATE: PERFORMANCE CURVE:

DS-4979 29Jul96 C-4979

CPL NUMBER • Dry Type Exhaust Manifold : 2212 • Water Cooled Exhaust Manifold: N/A

GENERAL ENGINE DATA Type ...................................................................................................................................... Aspiration .............................................................................................................................. Bore x Stroke ...................................................................................... — mm x mm (in x in) Displacement ..................................................................................................... — liter (in3) Compression Ratio ...............................................................................................................

4 Cycle; 50° Vee; 12 Cylinder Diesel Turbocharged and Aftercooled 140 x165 (5.51 x 6.50) 30.48 (1860) 14.0 : 1 DRY TYPE EXHAUST MANIFOLD

Dry Weight Fan to Flywheel Engine................................................................................... Heat Exchanger Cooled Engine ...................................................................... Wet Weight Fan to Flywheel Engine................................................................................... Heat Exchanger Cooled Engine ......................................................................

— kg (lb) — kg (lb)

2967

(6540) N/A

— kg (lb) — kg (lb)

3062

(6750) N/A

Moment of Inertia of Rotating Components • with FW 5050 Flywheel ................................................................. — kg • m2 (lbm • ft2) Center of Gravity from Rear Face of Flywheel Housing (FH 5031) .................... — mm (in) Center of Gravity above Crankshaft Centerline .................................................. — mm (in) Maximum Static Loading at Rear Main Bearing.................................................... — kg (lb)

WATER COOLED EXHAUST MANIFOLD

N/A

8.7 845 195 950

(206) (33.3) (7.7) (2100)

3100

(2286)

76

(3.0)

635 254 381

(25) (10) (15)

ENGINE MOUNTING Maximum Bending Moment at Rear Face of Block..................................... — N • m (lb • ft)

EXHAUST SYSTEM Maximum Back Pressure ......................................................................... — mm Hg (in Hg)

AIR INDUCTION SYSTEM Maximum Intake Air Restriction • with Dirty Filter Element.................................................................. — mm H2O (in H2O) • with Normal Duty Air Cleaner and Clean Filter Element................. — mm H2O (in H2O) • with Heavy Duty Air Cleaner and Clean Filter Element .................. — mm H2O (in H2O)

DRY TYPE EXHAUST MANIFOLD

WATER COOLED EXHAUST MANIFOLD

COOLING SYSTEM Coolant Capacity — Engine Only ............................................................... — liter (US gal) — with HX ____ Heat Exchanger .................................... — liter (US gal) Maximum Coolant Friction Head External to Engine— 1800 RPM................... — kPa (psi) — 1500 RPM...................... — kPa (psi) Maximum Static Head of Coolant Above Engine Crank Centerline ........................ — m (ft) Standard Thermostat (modulating) Range........................................................... — °C (°F) Minimum Pressure Cap .................................................................................... — kPa (psi) Maximum Top Tank Temperature for Standby Power ......................................... — °C (°F) Minimum Raw Water Flow @ 90°F to HX ____ Heat Exchanger .... — liter / min (US gpm) Maximum Raw Water Inlet Pressure at HX ____ Heat Exchanger................... — kPa (psi)

85

(22.4) N/A 69.0 48.0 14 82 - 95 69.0 104

N/A

(10.0) (7.0) (46) (180 - 203) (10) (220) N/A N/A

LUBRICATION SYSTEM Oil [email protected] Idle Speed ................................................................................ — kPa (psi) @ Governed Speed ...................................................................... — kPa (psi) Maximum Oil Temperature .................................................................................. — °C (°F) Oil Capacity with OP 5133 Oil Pan: High - Low .......................................... — liter (US gal) Total System Capacity (including By-pass Filter) ....................................... — liter (US gal) Angularity of OP 5133 Oil Pan — Front Down ...................................................................... — Front Up .......................................................................... — Side to Side .....................................................................

166 (24.0) 310 - 386 (45.0 - 56.0) 121 (250) 133 - 114 (35 - 30) 154 (40.7) 15° 15° 30°

FUEL SYSTEM Type Injection System........................................................................................................................................ Bosch P8500 Direct Injection Maximum Restriction at Lift Pump — with Clean Fuel Filter.................................................. — mm Hg (in Hg) 102 (4) — with Dirty Fuel Filter ............................ — mm Hg (in Hg) 203 (8) Maximum Allowable Head on Injector Return Line (Consisting of Friction Head and Static Head)— mm Hg (in Hg) 508 (20) Maximum Fuel Flow to Injection Pumps (LB and RB combined)— 1800 RPM ................ — liter / hr (US gph) 386 (102) — 1500 RPM ...................... — liter / hr (US gph) N/A Maximum Drain Flow (@ Minimum load)— 1800 RPM .................................................... — liter / hr (US gph) 367 (97) — 1500 RPM — liter / hr (US gph) N/A

ELECTRICAL SYSTEM Cranking Motor (Heavy Duty, Positive Engagement) ............................................................................. — volt Battery Charging System, Negative Ground.................................................................................... — ampere Maximum Allowable Resistance of Cranking Circuit.............................................................................. — ohm Minimum Recommended Battery Capacity • Cold Soak @ 50°F (10°C) and above..................................................................................... — 0°F CCA • Cold Soak @ 32°F to 50°F (0°C to 10°C)............................................................................... — 0°F CCA • Cold Soak @ 0°F to 32°F (-18°C to 0°C)................................................................................ — 0°F CCA

24 35 0.002 1200 1280 1800

COLD START CAPABILITY Minimum Ambient Temperature for Aided (with Coolant Heater) Cold Start within 10 seconds.........— °C (°F) Minimum Ambient Temperature for Unaided Cold Start .....................................................................— °C (°F)

-10 1

PERFORMANCE DATA All data is based on:

• Engine operating with fuel system, water pump, lubricating oil pump, air cleaner and exhaust silencer; not included are battery charging alternator, fan, and optional driven components. • Engine operating with fuel corresponding to grade No. 2-D per ASTM D975. • ISO 3046, Part 1, Standard Reference Conditions of: Barometric pressure : 99 kPa (29.3 in Hg) Air Temperature : 25°C (77°F) Altitude : 110 m (361 ft) Relative Humidity : 30%

Steady-state Stability Band at any Constant Load .................................................................................... —% Estimated Free Field Sound Pressure Level of a Typical Generator-set; Excludes Exhaust Noise; at Rated Load and 7.5 m (24.6 ft); 1800 RPM / 1500 RPM ................... — dBA Exhaust Noise at 1 m Horizontally from Centerline of Exhaust Pipe Outlet Upwards at 45° ................. — dBA

STAND-BY

60 Hz Governed Engine Speed ............................................ — RPM Engine Idle Speed ..................................................... — RPM Gross Engine Power Output............................ — kWm (BHP) Brake Mean Effective Pressure............................ — kPa (psi) Piston Speed ................................................ — m / s (ft / min) Friction Horsepower .......................................... — kWm (HP) Engine Water Flow at Stated Friction Head External to Engine: • 4 psi Friction Head............................ — liter / s (US gpm) • Maximum Friction Head (5 psi)......... — liter / s (US gpm)

1800 700 - 900 1000 (1340) 2185 (317) 1949 (9.9) 82 (110) N.A. 15.0 (235)

50 Hz

Not Available for 50 Hz Operation

+/- 0.25 TBD / TBD TBD

PRIME POWER

60 Hz

50 Hz

Not Available for Prime Power Application

Engine Data with Dry Type Exhaust Manifold Intake Air Flow.................................................— liter / s (cfm) Exhaust Gas Temperature ...................................... — °C (°F) Exhaust Gas Flow ...........................................— liter / s (cfm) Air to Fuel Ratio.......................................................— air: fuel Radiated Heat to Ambient ......................— kWm (BTU / min) Heat Rejection to Coolant .......................— kWm (BTU / min) Heat Rejection to Exhaust.......................— kWm (BTU / min)

1298 (2750) 504 (939) 3552 (7523) 23.2 : 1 145 (8245) 513(29190) 758(43130)

Engine Data with Water Cooled Exhaust Manifold

• • PRELIMINARY• •

Water Cooled exhaust manifold is not available on this engine.

N.A. - Data is not available N/A - Not Applicable to this engine TBD - To be determined

CUMMINS ENGINE COMPANY, INC.

ENGINE MODEL : DATA SHEET: DATE: CURVE NO.:

Columbus, Indiana 47202-3005

QST30-G3 DS-4979 29Jul96 C-4979

(14) (34)

CUMMINS ENGINE COMPANY, INC Columbus, Indiana 47201

Basic Engine Model:

Curve Number:

QST30-G3

C-4979

Dry Exh.Manifold

Wet Exh.Manifold

Date:

CPL: 2212

CPL: N/A

29Jul96

EXHAUST EMISSIONS DATA SHEET

Page No.

• • PRELIMINARY • • Engine Speed

Standby Power

RPM

kWm

BHP

1500

-----

-----

1800

1000

1340

Prime Power kWm

Continuous Power BHP

kWm

Not available for Prime Power Applications

BHP

Not available for Continuous Power Applications

Exhaust Emissions Data @ 1500 RPM

Not Available at 1500 RPM

Exhaust Emissions Data @ 1800 RPM Standby Power Component

mg/m3

PPM

HC (Total Unburned Hydrocarbons) 0.35

179

289

NOx (Oxides of Nitrogen as NO2)

9.48

4518

2337

CO (Carbon Monoxide)

0.56

269

216

PM (Particulate Matter)

0.22

61.3

TBD

SO2 (Sulfur Dioxide)

0.56

TBD

TBD

CONVERSIONS: NOTE:

g/BHP·h

Prime Power g/BHP·h

mg/m3

Not available for Prime Power Application

Continuous Power PPM

g/BHP·h

mg/m3

PPM

Not available for Continuous Power Applications

(g/kWm·h = g/BHP·h x 1.34)

mg/m3 and PPM numbers are corrected to 5% O2 content.

Data was recorded during steady-state rated engine speed (± 25 RPM) with full load (± 2%). Pressures, temperatures, and emission rates were stabilized. Fuel Specification: Fuel Temperature: Intake Air Temperature: Barometric Pressure: Humidity:

ASTM D975 No. 2-D diesel fuel with 0.2% sulfur content (by weight) and 42-50 cetane number. 99 °F ± 9° (at fuel pump inlet) 77 °F ± 9° 29.6 in. Hg ± 1 in. Hg NOx measurement corrected to 75 grains H2O/lb. dry air

The HC, NOx, and CO emissions data tabulated here were taken from a single engine under the test conditions shown above. Data for the other components are estimates. This data is subject to instrumentation, measurement, and engine-to-engine variability. Engine operation with excessive air intake or exhaust restriction beyond published maximum limits, or with improper maintenance, may result in elevated emission levels. Specifications May Change Without Notice

AEB 10.52 Page 31 of 45

Component Location

AEB 10.52 Page 32 of 45

Component Location

AEB 10.52 Page 33 of 45

Component Location

AEB 10.52 Page 34 of 45

Component Location

Flow

AEB 10.52 Page 35 of 45

Electric Grid Heater Electric grid heaters will be offered as a General AH option (AH 5001) which uses the QST30-G 24 VDC power supply. It is important to note that ether injection cannot be used with the grid heater system; ether detonation can occur inside the engine’s intake system causing structural damage. The grid heater system has performed well in the field with reliable starting down to -23°C (-9°F). Additional cold weather aids (coolant heaters, oil immersion heaters, etc.) and cold weather operation installation guidelines are available and applicable.

AEB 10.52 Page 36 of 45

Fuel System Design Considerations The Quantum 30 Generator Drive fuel system is a dual pump arrangement utilizing two Bosch P8500 in-line fuel injection pumps (one for each bank) with integral RE30 actuators controlled by the Quantum 30 Generator Drive Electronic Control Module (ECM). Through a dual system, Cummins provides a single point fuel supply and drain connection location on the left side of the engine (see installation drawing). The fuel block is provided in the DL 5006 option. The fuel supply connection is a 1-1/16-12 (37 degree flare) and the fuel return is a 7/8-14 (37 degree flare). A right side fuel service block is planned for the future. Unlike the EFC fuel system, the Bosch P8500 pump provides more of a constant flow (between minimum and maximum fueling). You should note on the engine data sheets that Maximum Fuel Return Flow occurs at minimum load and is about 378 liter/hr (100 gpm) for all G1, G2 and G3 engine models. Electromagnetic Compatibility - The QST30 fuel system and controls have been tested and are in compliance with C.E. certification per the EMC directive. Fuel Temperature Rise - The Bosch P8500 fuel system has two return flows “T’ed” on the engine block and returned to the single point fuel block. In addition to the injector return flow, each pump has a pump bypass “overflow” return that bypasses the injectors. The Bosch design specification for fuel temperature across the pump is 25°C (45°F). The G3 engine has demonstrated the highest temperature rise at 24.4°C (44°F). The G1's typical temperature rise is 13.3°C (24°F). Maximum Fuel Inlet Temperature - The QST30’s Bosch in-line fuel system has an absolute Fuel Inlet Temperature Limit of 65°C (150°F) for the system to ensure durability. With the Bosch limitation of 25°C (45°F) rise across the pump, 65°C (150°F) places the system near the Bosch limit. Unlike the high flow, low pressure, EFC fuel system, a Recommended Maximum Fuel Inlet Temperature of 43°C (110°F) will help ensure no power loss due to high fuel inlet temperatures. Fuel temperatures above this limit may result in the engine not producing full power. Additional testing later in 1996 will determine whether this number can be revised. Prefilter Requirements - Since the injection fuel filtration system is after the individual fuel lift pumps, lift pump protection from fuel tank debris and sediment must be provided. Therefore, a prefilter or sediment bowl with a 100-120 mesh element providing 140 micron filtration must be provided. Cummins is in the process of releasing three prefilter options that meet the above specifications for filtration. One option will be the current Bosch sediment bowls that are mounted on each fuel pump. The other two options will be kitted (for customer mounting and plumbing) and will contain the filter head with 120 mesh, 140 micron hydraulic filters, one with a water separator bowl and one without.

AEB 10.52 Page 37 of 45

Injection Governor

AEB 10.52 Page 38 of 45

QST30 Generator Drive Quantum Control System Basic Features 1. 2. 3. 4. 5. 6. 7. 9. 10. 11. 12. 13.

Isochronous and Droop Speed Governing Run/Stop w/Customer Supplied Switch Idle/Rated Speed Selection w/Customer Supplied Switch Remote Speed Adjust w/Customer Supplied Rheostat 50 Hz (1500 RPM)/60 Hz (1800 RPM) Alternate Frequency Switching w/Customer Supplied Switch Adjustable Acceleration Ramp Time Speed Bias Interfacing with Barber-Colman and Woodward Load Sharing/Synchronizing Controls Torque Curve Adjust (Service Tool) Engine Run & ECM Time (Service Tool) Governor Gain Adjust (Service Tool) Customer Setup Files (Service Tool) Extension Harnesses

Engine Safeties 1. 2. 3.

Engine Shutdowns for Low Oil Pressure (LOP), High Engine Coolant Temperature (HCT), Engine Overspeed (OS), and Loss of Speed Signal Fault Code/Snapshot Data (Service Tool) Alarm/Warning Reset w/Customer Supplied Switch

Customer Monitoring Interface 1. 2. 3. 4.

Meter Drivers for Coolant Temperature, Engine Speed, and Engine Oil Pressure Relay Drivers (for LEDs, Horns, etc.) for HCT, LOP, and OS Relay Drivers (for LEDs, Horns, etc.) for Pre-HCT and Pre-LOP Relay Contact (Normally Open) for Common Alarm: • HCT, LOP, and OS • Loss of Speed Input Signal (MPU) • ECM Memory Checksum Error for Critical Engine Parameters

5.

Relay Contact (Normally Open) for Common Warning: • pre-HCT and pre-LOP • Engine Oil Pressure Sensor Out-of-Range High or Low • Engine Coolant Temperature Out-of-Range High or Low • Fuel Pump Rack Position Fault (LB and/or RB) • ECM Memory Checksum Error for Non-Critical Engine Parameters

Tests (See Service Tool) 1. 2. 3. 4.

Fuel Pump Rack Test Analog Meter Driver Output Tests Relay Output Driver Tests Fault Simulation Tests

Customer features and interfaces are obtained through Connector B of the ECM. Each engine will be shipped with an engine harness with an in-line connector to a 5 ft. ECM adaptor harness that contains Connector A to the ECM. It is the customer's responsibility to supply the engine Start and Crank circuits, interfaced with the B Connector Run Signal Circuit. Also, every engine is shipped with a kitted ECM that contains the B Connector for customer usage. It is currently the customer's responsibility to build a harness, utilizing Connector B, that interfaces with the customer features. If the market sees the need for factory supplied customer harness (generic), please contact Power Generation Application Engineering for input (volumes, specs, etc.).

AEB 10.52 Page 39 of 45

Mounting Unlike the QSK19 CM500 controller, the Quantum 30 generator drive controller is not warranted if mounted directly to the engine block or other engine mounted hardware. It is not rated nor certified for engine temperatures and vibration signatures. The customer is, however, allowed to mount the ECM as he has done in the past with the EFC governor modules (generator, panel, base rail mounted or bracket mounted with proper vibration isolation at required points on the set).

ECM Diagram

AEB 10.52 Page 40 of 45

Bulletin No. 3666185

AEB 10.52 Page 41 of 45

AEB 10.52 Page 42 of 45

Isochronous/Droop Speed Governing Selection with service tool. Speed droop is set up with service tool and has a range of 0-10%. Isochronous Governing is obtained with “0” Droop selected.

Run/Stop Switch Customer supplied switch. The Run Signal input supplies Battery Positive (B+), via the switch, to pin-24. B+ supplied to pin-24 powers up the ECM.

Idle/Rated Switch Customer supplied switch. Idle Speed mode is selected by grounding pin-3 via the switch. Also selected via the service tool (see service tool).

Remote Speed Adjust Customer supplied 500-5,000 ohm rheostat. Provides customer with a 6% engine speed adjustment. The remote speed adjust range of 6% was driven to allow enough adjustment range for 5% speed droop settings.

Alternate Frequency Switching Customer supplied switch. Service tool sets up Normal and Alternate Speed selections (see service tool). The Alternate or second selection for rated engine speed is selected by grounding pin-2 via the switch.

Acceleration Ramp Time Selected through the service tool. The customer can select and adjust two separate acceleration ramp times, both adjustable between 0 and 30 seconds. One ramp takes effect between crank and rated speed. The second ramp selects acceleration between idle and rated speed when utilizing Idle/Rated switching feature. These two ramp functions are independent of each other for customer flexibility.

Barber-Colman & Woodward Speed Bias Inputs Provides for integration with “off-the-shelf” Barber-Colman and Woodward Load Sharing, Auto-synchronizing, Load Commander, etc., Digital and Analog Hardware. NOTE: Both Caterpillar and Detroit require specially designed and built, lower volume Woodward and BarberColman paralleling and load sharing hardware to integrate with their new governor controls. Quantum 30 generator drive controls are designed for integration with current Woodward and Barber-Colman controls, both analog and digital.

Idle Speed Adjust Adjusted via the service tool with a range of 700-900 RPM.

Torque Curve Adjustment Adjusted via the service tool with a range of 0 to +1% for minor horsepower adjustments.

Engine Run/ECM Time Accessible via the service tool, the ECM records engine Run Time in Hours:Minutes:Seconds that the engine has been running (RPM 0). The ECM also records the amount of time in Hours:Minutes:Seconds the ECM has been powered up (Run mode or Diagnostic mode).

Governor Gain Adjust Accessible via the service tool, this feature allows the governor gain to be adjusted for optimum performance. The gain is adjusted at rated speed. The idle speed gain is automatically calculated from the rated speed gain.

AEB 10.52 Page 43 of 45

Customer Setup Files With the service tool, the customer can create a parameter setup file that presets adjustable parameters to desired values. Running the file, instead of adjusting each parameter individually, can save time and avoid errors. A file for each customer, or customers with equal calibrations, simplifies initial setups and/or tests.

Engine Shutdowns Engine shuts down on Low Oil Pressure (LOP) at 35 psi at rated speed and 10 psi at idle speed. Engine shuts down on High Coolant Temperature (HCT) at 215°F. Engine shuts down on Engine Overspeed (OS) at a maximum of 2070 RPM. The OS shutdown is adjustable via the service tool between 800-2070 RPM. Engine shuts down on Loss of Engine Speed/Speed indication at 50 RPM.

Fault Codes Besides Alarm and Warning output features, the ECM stores selected Fault Codes accessible to the service tool (see Fault Code list in the service tool section). When the Fault Code is recorded in the ECM, input and output data from all sensors and switches is also recorded (Snapshot Data). Snapshot data allows the relationships between ECM inputs and outputs to be viewed and used during troubleshooting.

Alarm/Warning Reset Customer supplied switch. Resets all Alarm/Warning functions and inactive Fault Codes by grounding pin-1 via the switch. Warning relay drivers, relay contacts and inactive Fault Codes can be reset while the engine is running or shut down. Alarm shutdown relay drivers and contacts can be reset when the engine is shut down. To restart the engine on an alarm shut down, the Run/Stop switch must be cycled to Off.

Meter Drivers Drivers for Coolant Temperature, Engine Speed and Engine Oil Pressure are provided for meters rated at 0-1mA input. Via the service tool, these meters can be calibrated and tested for accuracy.

Relay Drivers Relay drivers rated at 200 mA maximum at 24 VDC can drive customer supplied Alarm LEDs, horns or other relays for HCT, LOP and engine OS alarms/shutdown, pre-HCT and pre-LOP warnings. Pre-HCT warning is set via the service tool and adjustable between 0 and 255°F. Pre-LOP warning is set via the service tool and adjustable between 0 and 100 psi. The OS shutdown is adjustable via the service tool between 800-2070 RPM.

Common Alarm/Warning Relay Contacts Any alarm function will close a set of normally open (NO) contacts rated for 2A at 30 VDC. Any pre-alarm (warning) will close a set of normally open (NO) contacts rated for 2A at 30 VDC.

AEB 10.52 Page 44 of 45

Analog Output (Meter) Trims

Parameter Description Coolant Temp. Duty Cycle Max. Coolant Temp. Trim Min. Coolant Temp. Trim

Type Duty Cycle Temperature Temperature

Range 0 - 100% 0-124°C (0-255°F) 0-124°C (0-255°F)

Default Setting 100% 124°C (255°F) -7°C (20°F)

Oil Pressure Duty Cycle Max. Oil Pressure Trim Min. Oil Pressure Trim

Duty Cycle Pressure Pressure

0-100% 0-100 psig 0-100 psig

100% 100 psig 0 psig

Engine Speed Duty Cycle Max. Engine Speed Trim Min. Engine Speed Trim

Duty Cycle Engine Speed Engine Speed

0-100% 0-2400 RPM 0-2400 RPM

100% 2400 RPM 0 RPM

Analog meter trims are adjustable parameters for calibrating customer's 0-1ma meters.

Fault Detection Threshold Trims Parameter Description LOP Warning (rated speed) LOP Warning (idle speed)

Type Pressure Pressure

Range 0-100 psig 0-100 psig

Default Setting 40 psig 15 psig

HCT Warning

Temperature

0-124°C (0-255°F)

97°C (207°F)

Engine Overspeed (OS) Alarm

Engine Speed

800-2070 RPM

2070 RPM

Fault detection threshold trims are adjustable parameters with max/min limitations for all engine warnings and the one (engine overspeed) alarm/shutdown. Engine OS is adjustable to aid in certain engine overspeed tests and for protection of single speed 1500 RPM (50Hz) rated generators.

Fault Detection Alarm Thresholds Parameter Description LOP Alarm (rated speed) LOP Alarm (idle speed)

Type Pressure Pressure

Range N/A N/A

Default Setting 35 psig 10 psig

HCT Alarm

Temperature

N/A

102°C (215°F)

Loss of Engine Speed

Engine Speed

N/A

£50 RPM

Fault detection alarm thresholds are non-adjustable setpoints for engine shutdowns. Note the only adjustable engine shutdown is the engine overspeed setpoint with a maximum setting of 2070 RPM.

AEB 10.52 Page 45 of 45

Control Feature Trims Parameter Description Alternate Frequency Sw. Settings Idle Speed Setting Governor Gain Governor Droop Acceleration Ramp Time Speed Bias Input (paralleling) Torque Curve Adjust Barber-Colman Scale Factor Woodward Scale Factor Speed Adjust Tool Enable Govnominal Reference Speed Override

Type Unitless Engine Speed Gain Factor Droop% Time (sec) Unitless Percent RPM/Volt RPM/Volt Switch Engine Speed

Range 1,2,3, or 4 700-900 RPM 0-100% 0-10% 0-30 seconds 1,2, 3, or 4 0 - +1% 500-2000 20-60 0 or 1 -1, 1000-2070 RPM

Default Setting 2 (60 w/50 alt.) 800 RPM 10% 0% 1 sec 4 (disabled) 0% 1100 36 0 (disabled) -1 (disabled)

Parameter Description Rack Position Error Warning

Type Fault Status

Range N/A

Default Setting ± 0.20 VDC

Remote Speed Adjust

Rheostat

± 6%

N/A

Other Features/Thresholds

Common Warning and Fault Code is initiated whenever the LB or RB fuel pump racks position indication voltage exceeds ± 0.20 VDC error from commanded position.

AEB 10.52

Front View G1/G2

Appendix A-1

AEB 10.52

Front View G1/G2

Appendix A-2

AEB 10.52

Rear View G1/G2 Appendix A-3

AEB 10.52

Rear View G1/G2

Appendix A-4

AEB 10.52

Left Side View G1/G2 Appendix A-5

AEB 10.52

Left Side View G1/G2 Appendix A-6

AEB 10.52

Right Side View G1/G2 Appendix A-7

AEB 10.52

Right Side View G1/G2

Appendix A-8

AEB 10.52

Top View G1/G2

Appendix A-9

AEB 10.52

Top View G1/G2 Appendix A-10

AEB 10.52

Engine Services Connections Appendix A-11

QST30-G (Generator) - Drive Engine Product Line G (Generator) - Drive Engine Product Line

CONFIGURATION NUMBER

MODEL

APPLICATION

MAXIMUM GROSS BHP (SAE) 1800 rpm

1500 rpm

QST30-G1

D573001GX03

Standby Power Prime Power Continuous Power

1135 1030 840

940 850 650

QST30-G2

D573001GX03

Standby Power Prime Power Continuous Power

1200 1085 840

1030 935 650

QST30-G3

D573001GX03

Standby Power Prime Power Continuous Power

1340 N/A N/A

N/A N/A N/A

NOTES: • All components and accessories are mounted and plumbed or wired unless otherwise noted. • Within the option categories that are mandatory, one option must be specified. You are not required to select an option from the general categories. • Engines for radiator cooled generator drive arrangements have fan speed drive ratio of 1.35 to 1. • Graphics for standard configuration options may be seen on the installation diagrams. • [G] denotes “General Option Category” • [M] denotes “Mandatory Option Category” • "N.A." denotes item not available. • "N/A" denotes item not applicable to engine. CAUTION: Proving torsional compatibility of an engine-generator set is the responsibility of the generator-set assembler. Cummins will supply the appropriate engine mass elastic data necessary for the calculations and is prepared to offer assistance with torsional questions concerning the engine.

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QST30-G (Generator) - Drive Engine Product Line Engine Reference Diagram

REFERENCE DIAGRAM 1424.2 [56.07]

REAR FACE OF FLYWHEEL HOUSING

1259 [49.57]

FRONT FACE OF BLOCK

REAR FACE OF BLOCK

This diagram is provided to assist with the identification of option location. Many of the option graphics used in this section reference the Front Face of Block; however, the engine installation drawing is referenced to the Rear Face of Flywheel Housing. This diagram may be used to locate options with respect to the Rear Face of Flywheel Housing.

Page B-2

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QST30-G (Generator) - Drive Engine Product Line AP - Marine Agency Certification Includes all factory tests required for the engine to be registered for installation in a classed vessel. The final vessel machinery inspection is not included. Engine design approval (marked "X") applies only to prime power gross BHP ratings listed on page 1. FOR PRIME POWER RATING ONLY Option No. [M]

Q30-G1

Q30-G2

Q30-G3

Non-Certified Agency Approval

AP 5001

X

X

X

American Bureau of Shipping (ABS)

AP 8001

N.A.

N.A.

N.A.

Lloyd’s Register of Shipping (LR)

AP 8002

N.A.

N.A.

N.A.

Bureau Veritas (BV)

AP 8007

N.A.

N.A.

N.A.

Det Norske Veritas (DNV)

AP 8008

N.A.

N.A.

N.A.

Can. Coast Guard Ship Safety Bureau (CAN)

AP 8009

N.A.

N.A.

N.A.

Registro Italiano Navale (RINa)

AP 8010

N.A.

N.A.

N.A.

Germanischer Lloyd (GL)

AP 8035

N.A.

N.A.

N.A.

China Classification Society (ZC)

AP 8067

N.A.

N.A.

N.A.

Korean Registry of Shipping (KR)

AP 8087

N.A.

N.A.

N.A.

Agency

NOTES: • N.A. - Not available at this time. • The above approvals are for engine certification only. • Emergency engine water pumps, emergency oil pumps and plumbing are not supplied by Cummins Engine Company, Inc. Emergency pumps must provide the same pressure and flow as the engine pumps. • The latest Marine Agency Certification information is available on Cummins TOSS system (REVI #FILE AGNCYAPR).

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Page B-3

QST30-G (Generator) - Drive Engine Product Line AC - Air Cleaner All air cleaners are dry type, have replacement elements. Donaldson models include integral dust ejector valve and air cleaner cap. Normal Duty -- have a minimum dirt holding capacity of 10 g of A-C coarse dust per CFM of intake air flow and are recommended for indoor use unless otherwise specified. AC 5099

[G]

(No Graphics Available)

Two disposable type air cleaners for outdoor use only. Includes air cleaner cap. Manufacturer/model/size : Air Maze Duty rating : Medium (10 grams cfm) Inlet size : 177.8 mm [7 in.] Outlet size : 152.4 mm [6 in.] Mounted or kitted : Mounted

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QST30-G (Generator) - Drive Engine Product Line AG - Air Cleaner Service Indicator

AG 5001

Graphic Available Next Update

AG 5001

[G]

Air cleaner service indicator. Restriction set at 635 mm [25 in.] of water. Supplied in kit. For use with customer supplied air intake systems. AG 5002

[G]

(No Graphics Available)

Air cleaner service indicator mounted on air intake piping. Restriction set at 635 mm [25 in.] of water.

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QST30-G (Generator) - Drive Engine Product Line AH - Air Heater Starting Aid

AH 5001

ah5001g.wmf

AH 5001

[G]

Dual grid type air heater starting aid (24 V system voltage). (12 V, 86 Amp per element). 1 element per cylinder. Includes left bank and right bank relays (24 V control voltage) For use with customer supplied timer circuit.

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QST30-G (Generator) - Drive Engine Product Line CB - Engine Barring Mechanism

CB 5001

CB 5002

CB 5003

cb5002g.pgl

CB 5001

[G]

Engine barring device. Mounting location : Quadrant 4 = 15 deg. Type of drive : Mechanical CB 5002

[G]

Engine barring device. Mounting location : Quadrant 3 = 18 deg. Type of drive : Mechanical CB 5003

[G]

Engine barring device. Mounting location : Quadrant 2 = 18 deg. Type of drive : Mechanical June 1996

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QST30-G (Generator) - Drive Engine Product Line CH - Engine Water Heater

CH 5001

Graphic Available Next Update

ch5001g.pgl

CH 5001

[G]

240 V 8000 watt external-type coolant heater starting aid. Supplied in kit for customer mounting. Controlled temperature range : 38-49 ×C [100-120 ×F] Does not include supply and discharge plumbing. CH 5002

[G]

(No Graphics Available)

240 V 8000 watt external-type coolant heater starting aid. Supplied in kit for customer mounting. Controlled temperature range : 38-49 ×C [100-120 ×F] Includes supply and discharge plumbing.

Page B-8

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QST30-G (Generator) - Drive Engine Product Line DA - Vibration Dampers

DA 5078

da5078g.wmf

DA 5078

[M]

Single viscous vibration damper Crankshaft pulley diameter : 202.8 mm [7.98 in.] Pulley groove : Poly-V 23 rib “K” Pulley material : Cast Crank pulley groove location (FFOB) : 391.5 mm [15.41 in.]

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QST30-G (Generator) - Drive Engine Product Line DA - Vibration Dampers

DA 5079

da5079g.wmf

DA 5079

[M]

Single viscous vibration damper Crankshaft pulley diameter : 223.5 mm [8.79 in.] Pulley groove : Poly-V 23 rib “K” Pulley material : Cast Crank pulley groove location (FFOB) : 396.9 mm [15.63 in.]

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QST30-G (Generator) - Drive Engine Product Line DA - Vibration Dampers

DA 5080

da5080g.wmf

DA 5080

[M]

Single vibration damper with crankshaft adaptor. Does not include crankshaft pulley.

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Page B-11

QST30-G (Generator) - Drive Engine Product Line DL - Injector Drain Location

DL 5006

dl5006g.wmf

DL 5006

[M]

Fuel block for supply and drain location. Includes single point hook up for two fuel pump system. Side of engine : Left bank Connection description : Supply : 1-1/16-12 tap with 37× flare Return : 7/8-14 tap with 37× flare

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QST30-G (Generator) - Drive Engine Product Line DO - Customer Interface Software Includes OEM Interface for: • Pre Low Oil Pressure warning 276 kPa [40 psi] at rated speed 103 kPa [15 psi] at idle speed • Low Oil Pressure alarm and shutdown 241 kPa [35 psi] at rated speed 69 kPa [10 psi] at idle speed • Pre High Engine Temp. warning 207 ×F [175 ×C] • High Engine Temp. alarm and shutdown 215 ×F [183 ×C] • Overspeed alarm and shutdown (2100 RPM adjustable) • Common Alarm • Common Warning • Latched Alarm Reset • Low Oil Pressure meter driver • Engine Temperature meter driver • Engine Speed meter driver • Idle / Rated Speed Switch • Remote Speed Adjust • Barber-Colman paralleling/synchronizing interface • Woodward paralleling/synchronizing interface

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QST30-G (Generator) - Drive Engine Product Line DO - Customer Interface Software

DO 5004

Graphic Available Next Update

DO 5004

[M]

Customer interface software. Includes control module and engine wiring harness. Module shipped in kit for customer mounting. Engine control system : Electronic For use with QST30-G3 only.

Page B-14

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QST30-G (Generator) - Drive Engine Product Line DO - Customer Interface Software

DO 5005

Graphic Available Next Update

do5004g.wmf

DO 5005

[M]

(No Graphics Available)

Customer interface software. Includes control module and engine wiring harness. Module shipped in kit for customer mounting. Engine control system : Electronic For use with QST30-G2 only.

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QST30-G (Generator) - Drive Engine Product Line DO - Customer Interface Software

DO 5006

Graphic Available Next Update

DO 5006

[M]

(No Graphics Available)

Customer interface software. Includes control module and engine wiring harness. Module shipped in kit for customer mounting. Engine control system : Electronic For use with QST30-G1 only.

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QST30-G (Generator) - Drive Engine Product Line EE - Alternator

EE 5058

ee5058g.wmf

EE 5058

[G]

24 V 32 amp Butec alternator with built in voltage regulator. Isolated ground. Use with EH 5001.

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Page B-17

QST30-G (Generator) - Drive Engine Product Line EE - Alternator

EE 5059

ee5059g.pgl

EE 5059

[G]

24 V 35 amp negative ground 20 SI 300 Delco Remy alternator with built in voltage regulator. Negative ground. Use with EH 5001.

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QST30-G (Generator) - Drive Engine Product Line EE - Alternator

EE 5061

EE 5062

ee804900.00k

EE 5061

[G]

24 V 75 amp negative ground 30 SI-400 Delco Remy alternator with built in voltage regulator. Negative ground. Marine corrosion resistant. Use with EH 5004. EE 5062

[G]

24 V 100 amp negative ground 30 SI-400 Delco Remy alternator with built in voltage regulator. Negative ground. Marine corrosion resistant. Use with EH 5004.

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Page B-19

QST30-G (Generator) - Drive Engine Product Line EH - Alternator Mounting

EH 5001

eh5001g.wmf

EH 5001

[G]

Alternator mounting and drive components for Delco-Remy and Butec alternators. Includes bracket, link, pulley and belt. Alternator drive ratio is 2.62 times engine speed.

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QST30-G (Generator) - Drive Engine Product Line EH - Alternator Mounting

EH 5004

Graphic Available Next Update

EH 5004

[G]

Alternator mounting and drive components for Delco-Remy and Butec alternators. Includes bracket, link, pulley and belt. Alternator drive ratio is 2.62 times engine speed.

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Page B-21

QST30-G (Generator) - Drive Engine Product Line EM - Front Engine Support

EM 5075

em5074g.wmf

EM 5075

[M]

Trunnion type front engine support with cast iron gear cover and grease fitting. Mounting location : Front Hydraulic pump compatible : Yes Degree of engine tilt : 0 Support material : Ductile iron Loading capability : 4.5 G Compatible isolators : N.A.

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QST30-G (Generator) - Drive Engine Product Line EO - Signal Generating Device

EO 5001

eo5001g.wmf

EO 5001

[G]

Signal Generating Device Application : Magnetic pickup Location : On flywheel housing, 30× from vertical centerline. Type : RPM Sending unit output : 700-6000 Hz Supplied by Cummins for customer use.

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QST30-G (Generator) - Drive Engine Product Line FA - Fan Drive Arrangement

FA 5055

Graphic Available Next Update

fa5055g.wmf

FA 5055

[M]

Front end arrangement without fan drive.

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QST30-G (Generator) - Drive Engine Product Line FA - Fan Drive Arrangement

FA 5057

fa5057g.wmf

FA 5057

[M]

Fan drive arrangement with engine mounted fan hub. Drive ratio : 0.5 to 1 Fan center : 609.6 mm [24 in.] Spacing : Single damper Belt : 23 rib “K” section v-ribbed Drive pulley : 23 groove, 203.2 mm [8 in.] diameter Fan pulley groove location : 393.4 mm [15.48 in.] Mounting bolt circle : 140 mm [5.5 in.] Includes shock absorber and belt tensioner. Use with DA 5078.

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Page B-25

QST30-G (Generator) - Drive Engine Product Line FA - Fan Drive Arrangement

FA 5058

fa5058g.wmf

FA 5058

[M]

Fan drive arrangement with engine mounted fan hub. Drive ratio : 0.5 to 1 Fan center : 508 mm [20 in.] Spacing : Single damper Belt : 23 rib “K” section v-ribbed Drive pulley : 23 groove, 203.2 mm [8 in.] diameter Fan pulley groove location : 393.4 mm [15.48 in.] Mounting bolt circle : 140 mm [5.5 in.] Includes shock absorber and belt tensioner. Use with DA 5078.

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QST30-G (Generator) - Drive Engine Product Line FA - Fan Drive Arrangement

FA 5059

fa5059g.wmf

FA 5059

[M]

Fan drive arrangement with engine mounted fan hub. Drive ratio : 0.55 to 1 Fan center : 609.6 mm [24 in.] Spacing : Single damper Belt : 23 rib “K” section v-ribbed Drive pulley : 23 groove, 223.52 mm [8.8 in.] diameter Fan pulley groove location : 393.4 mm [15.48 in.] Mounting bolt circle : 140 mm [5.5 in.] Includes shock absorber and belt tensioner. Use with DA 5079.

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QST30-G (Generator) - Drive Engine Product Line FA - Fan Drive Arrangement

FA 5060

fa5060g.wmf

FA 5060

[M]

Fan drive arrangement with engine mounted fan hub. Drive ratio : 0.55 to 1 Fan center : 558 mm [22 in.] Spacing : Single damper Belt : 23 rib “K” section v-ribbed Drive pulley : 23 groove, 223.52 mm [8.8 in.] diameter Fan pulley groove location : 393.4 mm [15.48 in.] Mounting bolt circle : 140 mm [5.5 in.] Includes shock absorber and belt tensioner. Use with DA 5079.

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QST30-G (Generator) - Drive Engine Product Line FA - Fan Drive Arrangement FA xxxx

[M]

(No Graphics Available)

Fan drive arrangement with engine mounted fan hub. Drive ratio : 0.5 to 1 Fan center : 457.2 mm [18 in.] Spacing : Single damper Belt : 31 rib “K” section Poly-V Drive pulley : 31 groove, 203.2 mm [8 in.] diameter Fan pulley groove location : 393.4 mm [15.48 in.] Mounting bolt circle : TBD Includes shock absorber and belt tensioner. Use with DA 5081.

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Page B-29

QST30-G (Generator) - Drive Engine Product Line FF - Fuel Filters

FA 5065

ff5065g.wmf

FF 5065

[M]

Dual element, (20 micron filtration) spin on fuel filters without water separator. Mounted to the rear of block below the fuel pump on right bank side. Inlet fitting : M14x1.5

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QST30-G (Generator) - Drive Engine Product Line FH - Flywheel Housing

FH 5031

fh5031g.wmf

FH 5031

[M]

SAE #0 cast iron flywheel housing for dry application. Has provisions for mounting an M20x1.5 threaded magnetic pick up. Complies with SAE J617. Use only with FW 5050, FW 5052 or FW 5053.

June 1996

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Page B-31

QST30-G (Generator) - Drive Engine Product Line FN - Fan

FN 5002

fn5002g.wmf

NOTES: • These are blower type fans. • Supplied in kit. FN 5002

[G]

1524 mm [60 in.] diameter blower fan. For use with FA 5057, FA 5058, FA 5059, FA 5060, FA xxxx; and SP 5001 or SP 5002.

Page B-32

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June 1996

QST30-G (Generator) - Drive Engine Product Line FN - Fan Air Flow Diagram

FN 5002

fn6002.tif

NOTES: • These are blower type fans. • Supplied in kit. FN 5002

[G]

Air flow diagram

June 1996

3884876

This is a PRELIMINARY SALES HANDBOOK

Page B-33

QST30-G (Generator) - Drive Engine Product Line FR - POWER RATING Engine performance capability in accordance with ISO-3046 conditions of: • 100 kPa [29.53 in. Hg] barometric pressure. • 110 m [361 ft] altitude • 25 ×C [77 ×F] air inlet temperature. • 30% relative humidity Using No. 2 diesel fuel per ASTM D-975. Prime Power includes 10% overload capability. FR 5128

[M]

(No Graphics Required)

For use at 1800 RPM operation only. • 1000 kWm [1340 BHP] at 1800 RPM. Not available at 1500 RPM. For Standby duty application only. For use with QST30-G3 only. FR 5129

[M]

(No Graphics Required)

For use at 1800 and 1500 RPM operation. • 895 kWm [1200 BHP] at 1800 RPM. • 768 kWm [1030 BHP] at 1500 RPM. For Standby duty application only. For use with QST30-G2 only. FR 5130

[M]

(No Graphics Required)

For use at 1800 and 1500 RPM operation. • 809 kWm [1085 BHP] Prime Power with 895 kWm [1200 BHP] overload capability at 1800 RPM. • 698 kWm [935 BHP] Prime Power with 768 kWm [1030 BHP] overload capability at 1500 RPM. For Prime Power application only. For use with QST30-G2 only.

Page B-34

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June 1996

QST30-G (Generator) - Drive Engine Product Line FR - Power Rating FR 5131

[M]

(No Graphics Required)

For use at 1800 and 1500 RPM operation. • 847 kWm [1135 BHP] at 1800 RPM. • 701 kWm [940 BHP] at 1500 RPM. For Standby duty application only. For use with QST30-G1 only. FR 5132

[M]

(No Graphics Required)

For use at 1800 and 1500 RPM operation. • 768 kWm [1030 BHP] Prime Power with 847 kWm [1135 BHP] overload capability at 1800 RPM. • 634 kWm [850 BHP] Prime Power with 701 kWm [940 BHP] overload capability at 1500 RPM. For Prime Power application only. For use with QST30-G1 only.

June 1996

3884876

This is a PRELIMINARY SALES HANDBOOK

Page B-35

QST30-G (Generator) - Drive Engine Product Line FV - Fuel Shutoff Valve

FV 5001

fv5001g.wmf

FV 5001

[M]

24 V DC, single terminal, rapid restart, fuel shut-off valve. Grounded.

Page B-36

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This is a PRELIMINARY SALES HANDBOOK

June 1996

QST30-G (Generator) - Drive Engine Product Line FV - Fuel Shutoff Valve

FV 5002

fv5002g.wmf

FV 5002

[M]

24 V DC, two terminal, rapid restart, fuel shut-off valve. Insulated.

June 1996

3884876

This is a PRELIMINARY SALES HANDBOOK

Page B-37

QST30-G (Generator) - Drive Engine Product Line FW - Flywheel

FW 5050

fw5050g.wmf

FW 5050

[M]

SAE #0, ductile iron flywheell Intended drive hardware : SAE 14 OC clutch SAE 18 OC clutch Ring gear pitch : 6/8 Ring gear tooth count : 142 Clutch bore diameter : 466.7 mm [18.4 in.] 572 mm [22.5 in.] Clutch mounting bolt circle : 460.4 mm [18.1 in.] Moment of inertia : 5.97 kg/m2 Use with FH 5031.

Page B-38

3884876

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June 1996

QST30-G (Generator) - Drive Engine Product Line FW - Flywheel

FW 5052

fw5052g.wmf

FW 5052

[M]

SAE #0, ductile iron flywheel Intended drive hardware : SAE 14 OC clutch SAE 18 OC clutch Ring gear pitch : 6/8 Ring gear tooth count : 142 Clutch bore diameter : 466.725 mm [18.375 in.] 571.5 mm [22.5 in.] Clutch mounting bolt circle : 460.4 mm [18.1 in.] Moment of inertia : 5.29 kg/m2 Use with FH 5031. June 1996

3884876

This is a PRELIMINARY SALES HANDBOOK

Page B-39

QST30-G (Generator) - Drive Engine Product Line FW - Flywheel

FW 5053

fw5053g.wmf

FW 5053

[M]

SAE #0, ductile iron flywheel Intended drive hardware : SAE 18 OC clutch Ring gear pitch : 6/8 Ring gear tooth count : 142 Maximum RPM : 2100 Clutch bore diameter : 466.725 mm [18.375 in.] Clutch mounting bolt circle : 542.94 mm [21.38 in.] Moment of inertia : 5.21 kg/m2 Use with FH 5031.

Page B-40

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June 1996

QST30-G (Generator) - Drive Engine Product Line HD - Auxiliary Pump

HD 5020

Graphic Available Next Update

HD 5020

[M]

Auxiliary pump. No provisions for auxiliary pumps. Includes cast closed gear cover.

June 1996

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This is a PRELIMINARY SALES HANDBOOK

Page B-41

QST30-G (Generator) - Drive Engine Product Line HD - Auxiliary Pump

HD 5021

df5001g.wmf

HD 5021

[M]

Auxiliary pump. Has provisions for customer supplied auxiliary pump in left bank or rear of the gear cover.

Page B-42

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June 1996

QST30-G (Generator) - Drive Engine Product Line LE - Engine Test Log LE 5001

[M]

(No Graphics Required)

Engine test log to be shipped with the engine. Includes engine speed and full load torque data every 100 RPM from peak torque to rated; high idle - no load; and low idle speed.

June 1996

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This is a PRELIMINARY SALES HANDBOOK

Page B-43

QST30-G (Generator) - Drive Engine Product Line LF - Oil Filters

LF 5053

lf5053g.wmf

LF 5053

[M]

Four element, full flow oil filter with replaceable spin on cartridges. Location : Right bank front - high Includes filter plumbing and mounting bracket.

Page B-44

3884876

This is a PRELIMINARY SALES HANDBOOK

June 1996

QST30-G (Generator) - Drive Engine Product Line LG - Dipstick Arrangement

LG 5001

lg5001g.wmf

LG 5001

[M]

Oil level gauge. Dipstick is calibrated for 0 degree power angle. Location : Right side of block Distance from front face of block : 429.5 mm [16.9 in.] Vertical location from crank : 123 mm [4.8 in.] Horizontal location from crank : 549 mm [21.6 in.] Sump location : Deep center Power angle : 0 degrees Tilt angle : 0 degrees For use with OP 5132 and OP 5133.

June 1996

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This is a PRELIMINARY SALES HANDBOOK

Page B-45

QST30-G (Generator) - Drive Engine Product Line LG - Dipstick Arrangement

LG 5002

Graphic Available Next Update

lg5002g.wmf

LG 5002

[M]

Sight glass for determining low lubricating oil level, while engine is operating. Mounted on left bank side of engine.

Page B-46

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This is a PRELIMINARY SALES HANDBOOK

June 1996

QST30-G (Generator) - Drive Engine Product Line LG - Dipstick Arrangement

LG 5003

Graphic Available Next Update

lg5003g.wmf

LG 5003

[M]

Oil level gauge. Dipstick is calibrated for 0 degree power angle. Location : Left side of block Distance from front face of block : 225 mm [8.85 in.] Vertical location from crank : TBD Horizontal location from crank : TBD Sump location : Deep center Power angle : 0 degrees Tilt angle : 0 degrees For use with OP 5132 and OP 5133.

June 1996

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This is a PRELIMINARY SALES HANDBOOK

Page B-47

QST30-G (Generator) - Drive Engine Product Line LO - Lubricating Oil LO 5001

[G]

(No Graphics Required)

Cummins premium blue 15W40 lube oil for filling engine prior to shipment. Includes tag stating that engine is filled with lube oil. Oil capacity for QST30 engines : 90 litres [24 gal.]

Page B-48

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June 1996

QST30-G (Generator) - Drive Engine Product Line LT - Literature LT 5008

[G]

(No Graphics Required)

Literature for QST30-G1, QST30-G2 and QST30-G3 engines. Includes Parts Catalog and Operation and Maintenance manual. Supplied in kit.

June 1996

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Page B-49

QST30-G (Generator) - Drive Engine Product Line OB - Dipstick And Oil Fill Arrangement

OB 5042

ob5042g.wmf

OB 5042

[M]

Dipstick and oil filler (plugged). Oil fill location : Right side of block Distance from front face of block : 480 mm [18.9 in.] Vertical location from crank : 50 mm [1.96 in.] Horizontal location from crank : 560 mm [22.04 in.]

Page B-50

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June 1996

QST30-G (Generator) - Drive Engine Product Line OB - Dipstick And Oil Fill Arrangement

OB 5043

Graphic Available Next Update

ob5043g.wmf

OB 5043

[M]

Dipstick and oil filler (plugged). Oil fill location : Left side of block Distance from front face of block : 171.5 mm [6.75 in.] Vertical location from crank : TBD Horizontal location from crank : TBD

June 1996

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This is a PRELIMINARY SALES HANDBOOK

Page B-51

QST30-G (Generator) - Drive Engine Product Line OF - By Pass Oil Filter

OF 5019

of5019g.wmf

OF 5019

[M]

Dual, spin on, by pass oil filter. Filter capacity : Mounting limitations : Maximum length from oil inlet : Supplied in kit with hoses.

Page B-52

3884876

This is a PRELIMINARY SALES HANDBOOK

June 1996

QST30-G (Generator) - Drive Engine Product Line OF - By Pass Oil Filter

OF 5020

of5020g.wmf

OF 5020

[M]

Dual, spin on, by pass oil filter. Mounted on right bank of engine on the aftercooler cover. Filter capacity : TBD

June 1996

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This is a PRELIMINARY SALES HANDBOOK

Page B-53

QST30-G (Generator) - Drive Engine Product Line OH - Engine Oil Heater OH 5002

[M]

(No Graphics Available)

Two 240 V 300 watt, single phase, oil pan immersion hearters. Mounted on left and right side of the oil pan. 600 watt total.

Page B-54

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June 1996

QST30-G (Generator) - Drive Engine Product Line OP - Oil Pan

OP 5133

op5133g.wmf

OP 5133

[M]

Center sump, one piece, cast aluminum oil pan. Angularity : - Front down : 30× - Front up : 30× - Side to side : 30× High level - 132.5 litres [35 gal.] Low level - 113.6 litres [30 gal.] Includes drain plugs for left and right side of pan. Provision for temperature sensor, immersion heater, pre-lube and sight gauge on left side only.

June 1996

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Page B-55

QST30-G (Generator) - Drive Engine Product Line PU - Accessory Drive Pulley

PU 5001

pu5001g.wmf

PU 5001

[M]

Accessory drive pulley for alternator. Pulley drive ratio : 1.68 : 1 Pulley diameter : 181.4 mm [7.14 in.] Pulley groove loc. : Right side, 165.8 mm [6.5 in.] from FFOB Vertical location from crank : 215 mm [8.5 in.] Horizontal location from crank : 165.8 mm [6.5 in.] Alternator turns at 2.62 times engine speed.

Page B-56

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June 1996

QST30-G (Generator) - Drive Engine Product Line PU - Accessory Drive Pulley

PU 5002

pu5002g.wmf

PU 5002

[M]

Cover plate for accessory drive pulley. Used to seal opening on the right front of the gear cover when an accessory drive pulley is not required.

June 1996

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This is a PRELIMINARY SALES HANDBOOK

Page B-57

QST30-G (Generator) - Drive Engine Product Line RE - Rear Engine Support

RE 5002

re5002g.wmf

RE 5002

[G]

Two pedestal type, cast iron, rear engine supports. Mounted on flywheel housing. For use with SAE #0 flywheel housing.

Page B-58

3884876

This is a PRELIMINARY SALES HANDBOOK

June 1996

QST30-G (Generator) - Drive Engine Product Line RE - Rear Engine Support

RE 5003

re5003g.wmf

RE 5003

[G]

Two pedestal type, fabricated, rear engine supports. Mounted on flywheel housing. For use with SAE #0 flywheel housing.

June 1996

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This is a PRELIMINARY SALES HANDBOOK

Page B-59

QST30-G (Generator) - Drive Engine Product Line SB - Magnetic Switch

SB 5001

sb5001g.wmf

SB 5001

[G]

24 V, insulated, magnetic switch Mounted to the starter mounting flange. For use with single or dual, positive engagement starters.

Page B-60

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June 1996

QST30-G (Generator) - Drive Engine Product Line SG - Shields And Guards

SG 5017

Graphic Available Next Update

SG 5017

sg5017g.wmf

[G]

Front engine guard. Components covered : Alternator pulley and belt Use with EH 5001 and EH 5004.

June 1996

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This is a PRELIMINARY SALES HANDBOOK

Page B-61

QST30-G (Generator) - Drive Engine Product Line SG - Shields And Guards

SG 5018

Graphic Available Next Update

SG 5018

sg5018g.wmf

[G]

Front engine guard. Components covered : Vibration damper Use with DA 5078, DA 5079 and DA 5080.

Page B-62

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June 1996

QST30-G (Generator) - Drive Engine Product Line SK - Shipping Arrangement SK 5001

[G]

(No Graphics Required)

Wood shipping skid for engine only (fan to flywheel). SK 5002

[G]

(No Graphics Required)

Engine only shipping box for exporting.

June 1996

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Page B-63

QST30-G (Generator) - Drive Engine Product Line SP - Fan Spacer

SP 5001

sp5001g.wmf

SP 5001

[G]

Aluminum fan spacer. Spacer thickness : 76.2 mm [3.0 in.] Fan pilot diameter : 76.2 mm [3.0 in.] Fan hub pilot bore : 76.2 mm [3.0 in.] Mounting hole bolt circle : 139.7 mm [5.5 in.] Includes (6) 1/2 inch capscrews, spacer and lockwashers.

Page B-64

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June 1996

QST30-G (Generator) - Drive Engine Product Line SP - Fan Spacer

SP 5002

sp5002g.wmf

SP 5002

[G]

Aluminum fan spacer. Spacer thickness : 123.95 mm [4.88 in.] Fan pilot diameter : 76.2 mm [3.0 in.] Fan hub pilot bore : 76.2 mm [3.0 in.] Mounting hole bolt circle : 139.7 mm [5.5 in.] Includes (6) 1/2 inch capscrews, spacer and lockwashers.

June 1996

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Page B-65

QST30-G (Generator) - Drive Engine Product Line SP - Fan Spacer

SP 5006

138.2 [5.44 in.]

sp5001g.wmf

SP 5006

[G]

Aluminum fan spacer. Spacer thickness : 138.2 mm [5.44 in.] Fan pilot diameter : 76.2 mm [3.0 in.] Fan hub pilot bore : 76.2 mm [3.0 in.] Mounting hole bolt circle : 139.7 mm [5.5 in.] Includes (6) 1/2 inch capscrews, spacer and lockwashers.

Page B-66

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June 1996

QST30-G (Generator) - Drive Engine Product Line SS - Engine Color SS 5011

[M]

(No Graphics Required)

Cummins beige paint and primer. One primer coat and one color coat. Includes two nameplates. SS 5017

[M]

(No Graphics Required)

Cummins primer paint only. Nameplates are shipped in the kit. For use with Customer supplied finish paint.

June 1996

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Page B-67

QST30-G (Generator) - Drive Engine Product Line SS - Special Handling SS xxxx

[G]

(No Graphics Required)

For release by July 15.

Page B-68

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June 1996

QST30-G (Generator) - Drive Engine Product Line SS - Ventilated Plastic Engine Cover SS xxxx

[G]

(No Graphics Required)

For release by July 15.

June 1996

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Page B-69

QST30-G (Generator) - Drive Engine Product Line ST - Starter

ST 5017

st5017g.wmf

ST 5017

[M]

24 V Delco-Remy 50MT400 electric starter. Positive engagement. Starter location : 3rd Quadrant, 18 degrees Starter length : 518.2 mm [20.4 in.] SAE type starter mounting flange : 3 Starter kW rating : 9 kW Gear pitch : 6/8 For dry applications only.

Page B-70

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June 1996

QST30-G (Generator) - Drive Engine Product Line ST - Starter

ST 5018

st5018g.wmf

ST 5018

[M]

24 V Delco-Remy 50MT400 electric starter. Positive engagement. Starter location : 2nd Quadrant, 18 degrees Starter length : 518.2 mm [20.4 in.] SAE type starter mounting flange : 3 Starter kW rating : 9 kW Gear pitch : 6/8 For dry applications only.

June 1996

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Page B-71

QST30-G (Generator) - Drive Engine Product Line ST - Starter

ST 5019

st5019g.wmf

ST 5019

[M]

Two 24 V Delco-Remy 42MT400 electric starters. Positive engagement. Starter location : 4th Quadrant, 15 degrees Starter length : 393.4 mm [15.49 in.] SAE type starter mounting flange : 3 Starter kW rating : 7.76 kW Gear pitch : 6/8 For dry applications only.

Page B-72

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June 1996

QST30-G (Generator) - Drive Engine Product Line ST - Air Starter ST 5023

[M]

(No Graphic Available)

Two 24 V Delco-Remy 50MT electric starters. Positive engagement. Starter location : 3rd Quadrant, 18 degrees Starter solenoid location : 37.5 degrees (solenoid angle from center of starter) SAE type starter mounting : flange Starter kW rating : 9 kW Gear pitch : 6/8 For dry applications only.

June 1996

3884876

This is a PRELIMINARY SALES HANDBOOK

Page B-73

QST30-G (Generator) - Drive Engine Product Line TB - Turbocharger Arrangement

TB 5037

tb5037g.wmf

TB 5037

[M]

Turbocharger arrangement Exhaust outlet location : rear out Exhaust outlet size : TBD Engine aspiration : Jacket water aftercooled Turbocharger type : Non-wastegated Turbo exhaust location (from FFOB) : 608.6 mm [23.9 in.] Turbo’s vertical location from crank : 800 mm [31.5 in.] Turbo’s horizontal location from crank : Right bank : 125 mm [4.92 in.] Left bank : 185 mm [7.28 in.]

Page B-74

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June 1996

QST30-G (Generator) - Drive Engine Product Line TB - Turbocharger Arrangement

TB 5040

tb5040g.wmf

TB 5040

[M]

Turbocharger arrangement Exhaust outlet location : front out Exhaust outlet size : TBD Engine aspiration : Jacket water aftercooled Turbocharger type : Non-wastegated Turbo exhaust location (from FFOB) : 608.6 mm [23.9 in.] Turbo’s vertical location from crank : 800 mm [31.5 in.] Turbo’s horizontal location from crank : Right bank : 125 mm [4.92 in.] Left bank : 185 mm [7.28 in.]

June 1996

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Page B-75

QST30-G (Generator) - Drive Engine Product Line TH - Water Outlet Connections And Thermostat Housing

TH 5008

th5008g.wmf

TH 5008

[M]

Dual 76 mm [3.0 in.] hose type water outlet connections. Includes 3 thermostats (full open temp.) : 90 °C [194 °F] Water outlet height : 155 mm [6.10 in.] Water outlet direction : vertical Water outlet horizontal distance : 80 mm [3.14 in.] Water outlet vertical distance : 807 mm [31.77 in.] Water outlet distance (from FFOB): 49 mm [1.92 in.] Engine aspiration : Jacket water aftercooled Connection by hose only.

Page B-76

3884876

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June 1996

QST30-G (Generator) - Drive Engine Product Line TH - Water Outlet Connections And Thermostat Housing

TH 5009

th5009g.wmf

TH 5009

[M]

Dual 76 mm [3.0 in.] flange type water outlet connections. Includes 3 thermostats (full open temp.) : 90 ×C [194 ×F] Water outlet height : 248.4 mm [9.78 in.] Water outlet direction : vertical Water outlet horizontal distance : 130 mm [5.11 in.] Water outlet vertical distance : 902.4 mm [35.52] Water outlet distance (from FFOB): 49 mm [1.92 in.] Engine aspiration : Jacket water aftercooled Flange data : Number of bolts : 4 Bolt size : M16 Bolt circle diameter : 152.4 mm [6.0 in.] June 1996

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This is a PRELIMINARY SALES HANDBOOK

Page B-77

QST30-G (Generator) - Drive Engine Product Line TH - Water Outlet Connections And Thermostat Housing

TH 5011

th5011g.wmf

TH 5011

[M]

76.2 mm [3.0 in.] dual hose type water outlet connection. Includes 3 thermostats (full open temp.) : 90 ×C [194 ×F] Engine aspiration : Jacket water aftercooled Water outlet height : 337 mm [13.3 in.] Water outlet direction : 45 degrees forward Water outlet horizontal distance : 80 mm [3.15 in.] Water outlet vertical distance : 991 mm [39 in.] Water outlet distance (from FFOB) : 164 mm [6.45 in.]

Page B-78

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June 1996

QST30-G (Generator) - Drive Engine Product Line TH - Water Outlet Connections And Thermostat Housing

TH 5013

th5013g.pgl

TH 5013

[M]

Dual 60.5 mm [2.38 in.] hose type water outlet connections. Includes 3 thermostats (full open temp.) : 90 ×C [194 ×F] Water outlet height : 268 mm [10.6 in.] Water outlet direction : 58 deg. forward and 49 deg. out (from crank centerline) Water outlet horizontal distance : 205.3 mm [3.14 in.] Water outlet vertical distance : 922 mm [31.77 in.] Water outlet distance (from FFOB): 157.9 mm [6.22 in.] Engine aspiration : Jacket water aftercooled Connection by hose only.

June 1996

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Page B-79

QST30-G (Generator) - Drive Engine Product Line TH - Water Outlet Connections And Thermostat Housing

TH 5014

th5014g.pgl

TH 5014

[M]

Dual 60.5 mm [2.38 in.] hose type water outlet connections. Includes 3 thermostats (full open temp.) : 90 ×C [190 ×F] Water outlet height : 214 mm [8.43 in.] Water outlet direction : 75 deg. forward and 61 deg. out (from crank centerline) Water outlet horizontal distance : 130.3 mm [5.13 in.] Water outlet vertical distance : 868 mm [34.17 in.] Water outlet distance (from FFOB): 76.9 mm [3.02 in.] Engine aspiration : Jacket water aftercooled Connection by hose only. Page B-80

3884876

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June 1996

QST30-G (Generator) - Drive Engine Product Line TH - Water Outlet Connections And Thermostat Housing

TH 5015

Graphic Available Next Update

th5015g.wmf

TH 5015

[M]

Dual 72 mm [2.8 in.] hose type water outlet connections. Includes 3 thermostats (full open temp.) : 90 ×C [190 ×F] Water outlet height : 214 mm [8.43 in.] Water outlet direction : Straight up Water outlet horizontal distance : 80 mm [3.15 in.] Water outlet vertical distance : 746.4 mm [29.39 in.] Water outlet distance (from FFOB): 49 mm [1.93 in.] Engine aspiration : Jacket water aftercooled Connection by hose only.

June 1996

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Page B-81

QST30-G (Generator) - Drive Engine Product Line WF - Corrosion Resistor

WF 5021

wf5021g.pgl

WF 5021

[M]

Dual spin-on corrosion resistors - Cummins supplied . Mounted on the front right side of the water pump. DCA4 units supplied in kit. Designed for cooling system capacity : TBD Inhibitor units (in each element) : 15 Inhibitor units in kit : Three 20 unit Length of can : 135 mm [5.3 in.]

Page B-82

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June 1996

QST30-G (Generator) - Drive Engine Product Line WI - Water Inlet Connection

WI 5049

wi5049g.pgl

WI 5049

[M]

90 deg., 127 mm [5.0 in.] clamp type water inlet connection pointing forward. Water inlet height : 133 mm [5.24 in.] Connection ports : Thread size : 1 in. NPTF - quantity (1) 3/4 in. NPTF - quantity (1) Distance : Back from front face of block : 50.5 mm [1.98 in.] Over from crank centerline : 325.2 mm [12.80 in.] Down from crank centerline : 331.9 mm [13.06 in.]

June 1996

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Page B-83

QST30-G (Generator) - Drive Engine Product Line WI - Water Inlet Connection

WI 5050

Graphic Available Next Update

WI 5050

[M]

90 deg., 127 mm [5.0 in.] ASA flange type, water inlet connection pointing forward. Water inlet height : 133 mm [5.24 in.] Connection ports : Thread size : 1 in. NPTF - quantity (1) 3/4 in. NPTF - quantity (1) Distance : Back from front face of block : 50.5 mm [1.98 in.] Over from crank centerline : 325.2 mm [12.80 in.] Down from crank centerline : 331.9 mm [13.06 in.]

Page B-84

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June 1996

QST30-G (Generator) - Drive Engine Product Line WI - Water Inlet Connection

WI 5051

wi5051g.pgl

WI 5051

[M]

127 mm [5.0 in.] clamp type, water inlet connection pointing down. Water inlet height : 150 mm [5.24 in.] Connection ports : Thread size : M33x2 Number of ports : 1 Distance : Back from front face of block : 203.5 mm [1.98 in.] Over from crank centerline : 325.2 mm [12.80 in.] Down from crank centerline : 348.9 mm [13.06 in.]

June 1996

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Page B-85

QST30-G (Generator) - Drive Engine Product Line WI - Water Inlet Connection

WI 5052

wi5052i.pgl

WI 5052

[M]

Water inlet connection. Includes water transfer cover. For customer supplied water inlet tube.

Page B-86

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June 1996

QST30-G (Generator) - Drive Engine Product Line WI - Water Inlet Connection

WI 5053

wi5053g.pgl

WI 5053

[M]

90 deg., 127 mm [5.0 in.] ASA flange type, water inlet connection pointing out. Water inlet height : 133 mm [5.24 in.] vertical to crank centerline Connection ports : Thread size : 1 in. NPTF - quantity (1) 3/4 in. NPTF - quantity (1) Distance : Back from front face of block : 50.5 mm [1.98 in.] Over from crank centerline : 325.2 mm [12.80 in.] Down from crank centerline : 331.9 mm [13.06 in.]

June 1996

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This is a PRELIMINARY SALES HANDBOOK

Page B-87

QST30-G (Generator) - Drive Engine Product Line WO - Water Outlet Connection

WO 5015

Graphic Available Next Update

Water outlet connections are shipped in kit for customer installation. Kit also contains instructions, gaskets for installation. WO 5015

[G]

Water outlet connection style : Single ASA flange Water outlet flange bolt circle diameter : 190.5 mm [7.5 in.] Water outlet direction : vertical Water outlet horizontal distance from FFOB : 48 mm [1.8 in.] Water outlet vertical distance above crank : 938 mm [36.9 in.] Water outlet height : 275 mm [10.8 in.] Use with TH 5008.

Page B-88

3884876

This is a PRELIMINARY SALES HANDBOOK

June 1996

QST30-G (Generator) - Drive Engine Product Line WO - Water Outlet Connection

WO 5016

Graphic Available Next Update

Water outlet connections are shipped in kit for customer installation. Kit also contains instructions and gaskets for installation. WO 5016

[G]

Water outlet connection style : Single hose clamp Water outlet flange bolt circle diameter : 101.6 mm [4 in.] Water outlet direction : vertical Water outlet horizontal distance from FFOB : 48 mm [1.8 in.] Water outlet vertical distance above crank : 980 mm [38.5 in.] Water outlet height : 317 mm [12.4 in.] Use with TH 5008.

June 1996

3884876

This is a PRELIMINARY SALES HANDBOOK

Page B-89

QST30-G (Generator) - Drive Engine Product Line WR - Wiring Accessories The customer is limited to 13.7 m [45 ft.] of total extension harness length from the engine wiring harness (flywheel housing) to the 1.52 m [5 ft.] ECM harness. (There is 15.24 m [50 ft.] of total extension wiring harness) WR 5002

[G]

(No Graphics Available)

1.52 m [5 ft.] extension wiring harness for QST30 engines. WR 5005

[G]

(No Graphics Available)

3.04 m [10 ft.] extension wiring harness for QST30 engines. WR 5006

[G]

(No Graphics Available)

6.08 m [20 ft.] extension wiring harness for QST30 engines.

Page B-90

3884876

This is a PRELIMINARY SALES HANDBOOK

June 1996

QST30-G (Generator) - Drive Engine Product Line XS - Exhaust System Accessories

XS 5028

xs5028g.pgl

XS 5028

[G]

Dual, flange type, 90 degree, exhaust outlet elbows. Material : ductile cast iron Location of exhaust outlet : Rear out FFOB : 582.4 mm [22.9 in.] Front out FFOB : TBD Flange location vertical from crank : 971.5 mm [38.25 in.] Flange location horizontal from crank : Right bank : 125 mm [4.9 in.] Left bank : 185 mm [7.3 in.] Exhaust outlet diameter : 149.4 mm [5.88 in.] Exhaust flange : Number of bolts : 8 Bolt size : 11.2 mm [0.44 in.] Bolt circle : 182.63 mm [7.2 in.] June 1996

3884876

This is a PRELIMINARY SALES HANDBOOK

Page B-91

QST30-G (Generator) - Drive Engine Product Line XS - Exhaust System Accessories

XS 5029

xs5029g.pgl

XS 5029

[G]

Dual, slip on type, 90 degree exhaust elbows. Exhaust outlet diameter : 152.4 mm [6.0 in.] Location of exhaust outlet (Rear out FFOB) : Right bank : 950.4 mm [37.42 in.] Left bank : 852.4 mm [33.56 in.] Location of exhaust outlet (Front out FFOB) : TBD

Page B-92

3884876

This is a PRELIMINARY SALES HANDBOOK

June 1996

QST30-G (Generator) - Drive Engine Product Line XS - Exhaust System Accessories

XS 5030

xs5030g.pgl

XS 5030

[G]

Dual, flange type, 90 degree, exhaust elbows. Material : ductile cast iron Location of exhaust outlet : Rear out FFOB : TBD Front out FFOB : TBD Flange location vertical from crank : TBD Flange location horizontal from crank : TBD Right bank : TBD Left bank : TBD Exhaust outlet diameter : 127 mm [5.0 in.] Exhaust flange : Number of bolts : 8 Bolt size : 11.2 mm [0.44 in.] Bolt circle : 182.63 mm [7.2 in.]

June 1996

3884876

This is a PRELIMINARY SALES HANDBOOK

Page B-93

QST30-G (Generator) - Drive Engine Product Line XS - Exhaust System Accessories

XS 5031

xs5031g.pgl

XS 5031

[G]

Dual slip on, straight type, exhaust elbows. Exhaust outlet diameter : 127 mm [5.0 in.] Location of exhaust outlet (Rear out FFOB) : Right bank : 861.6 mm [33.9 in.] Left bank : 763.6 mm [30.1 in.] Location of exhaust outlet (Rear out FFOB) : TBD Flange location vertical from crank : TBD Flange location horizontal from FFOB : TBD

Page B-94

3884876

This is a PRELIMINARY SALES HANDBOOK

June 1996

QST30-G (Generator) - Drive Engine Product Line XS - Exhaust System Accessories XS xxxx

[G]

(No Graphics Available)

Dual, slip on type, 90 degree exhaust elbows. Exhaust outlet diameter : 127 mm [5.0 in.] Location of exhaust outlet (Rear out FFOB) : Right bank : TBD Left bank : TBD Location of exhaust outlet (Front out FFOB) : TBD

June 1996

3884876

This is a PRELIMINARY SALES HANDBOOK

Page B-95

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