power generation - english€¦ · power generation application g-drive engines not regulated...
TRANSCRIPT
POW
ER
GEN
ERA
TIO
N
THE ENERGYOF INNOVATION
Wherever energy has to be delivered quickly and reliably, FPT Industrial provides the optimal answer with its state-of-the-art range of engines for Power Generation applications.
Sustainability is one of the primary drivers of product development at FPT Industrial, where the increasingly stringent standards for Diesel engines emissions are considered as a challenge to continuous improvement.
To fulfill market requirements, FPT Industrial has developed different engine ranges respectively compliant with most demanding emissions standards. FPT Industrial products offer functional layouts, hi-tech contents and carefully selected top quality components as well.
Excellent transient load responseHigh performance guaranteed in all conditionsHigh engine power density
Compliance with the most stringent emissions legislationsLow noise levels
Low oil and fuel consumptionBest in class maintenance intervals Low running costs in continuous operating power
Availability of a wide range of options to create tailor-made productsCompact engine layoutAvailability of cold starting accessories
PERFORMANCE
RESPECT FOR THE ENVIRONMENT
RUNNING COSTS REDUCTION
FLEXIBILITY
FPT Industrial offers superior technology and outstanding advantages
Diesel engines for Power Generation applicationG-DRIVE ENGINES
NOT REGULATED EMISSIONS50 Hz / 1500 rpm 60 Hz / 1800 rpm
STANDBY POWER PRIME POWER STANDBY POWER PRIME POWER
kWm (net) kWe kVA kWm
(net) kWe kVA kWm (net) kWe kVA kWm
(net) kWe kVA
S8000AM13 3L/NA M 2,9 UR 31 27 34 28 25 31 34 30 37 31 27 34 88% •
N45AM1A3 4L/NA M 4,5 UR1 46 40 51 42 37 46 - - - - - - 88% -
N45AM2 4L/NA M 4,5 UR 50 44 55 45 40 50 - - - - - - 88% -
N45SM1A3 4L/TC M 4,5 UR1 59 54 67 53 48 60 65 59 74 59 54 67 91% •
N45SM3 4L/TC M 4,5 UR 81 74 92 73 66 83 87 79 99 79 72 90 91% •
N45TM2A3 4L/TAA M 4,5 UR1 96 88 110 88 81 101 107 98 123 98 90 113 92% •
N45TM33 4L/TAA M 4,5 UR 118 109 136 107 98 123 122 112 140 111 102 128 92% •
N67SM1 6L/TC M 6,7 UR 121 111 139 110 101 127 138 127 159 125 115 144 92% •
N67TM2A3 6L/TAA M 6,7 UR1 126 116 145 114 105 131 141 130 162 128 118 147 92% •
N67TM3A3 6L/TAA M 6,7 UR1 152 140 175 138 127 159 165 152 190 149 137 171 92% •
N67TM4 6L/TAA M 6,7 UR 165 152 190 150 138 173 - - - - - - 92% -
N67TE2A2 6L/TAA ECR 6,7 UR1 193 179 224 175 163 203 215 200 250 195 181 227 93% •
N67TM7 6L/TAA M 6,7 UR 195 181 227 177 165 206 195 181 227 177 165 206 93% •
N67TE8W3 6L/TAA ECR 6,7 UR 238 221 277 216 201 251 253 235 294 230 214 267 93% •
CURSOR87TE43 6L/TAA ECR 8,7 UR 299 278 348 275 256 320 333 310 387 306 285 356 93% •
CURSOR13TE2A3 6L/TAA EUI 12,9 UR1 330 308 384 300 280 350 360 336 419 327 305 381 93% •
CURSOR13TE3A3 6L/TAA EUI 12,9 UR1 387 364 455 352 331 414 398 374 468 360 338 423 94% •
CURSOR13TE6W 6L/TAA ECR 12,9 UR 414 395 494 374 357 446 454 433 541 400 382 477 95% •
CURSOR13TE7W 6L/TAA ECR 12,9 UR 459 438 547 425 405 507 474 452 565 428 408 510 95% •
CURSOR16TE1W3 6L/TAA ECR 15,9 UR 557 529 661 505 480 600 578 549 686 523 497 621 95% •
1500
/180
0 RPM
SWITC
HABLE
MODELCY
LINDER
ARRA
NGEMEN
T
AIR IN
TAKE
EXHAU
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INJEC
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DISPLA
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LITER
SEM
ISSIO
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GENER
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FF.
UR UnregulatedUR1 Previously EU Stage II2 Complies to TA Luft (1986) regulations3 TÜV measured based on TA-Luft standards
LEGENDARRANGEMENTL In line
AIR INTAKENA Naturally AspiratedTAA Turbocharged AftercoolerTC Turbocharged
EXHAUST SYSTEMI-EGR Internal Exhaust Gas RecirculationDOC Diesel Oxydation CatalystSCR Selective Catalytic ReductionCUC Clean-up Catalyst
INJECTION SYSTEMM MechanicalECR Electronic Common RailEUI Electronic Unit Injector
• 1500 rpm / 1800 rpm switchable engine- not switchable engine** Fan absorption: 1%-6%
kVA kiloVolt Ampere calculations based on a 0.8 power factor
1. Preliminary data
REGULATED EMISSIONS50 Hz / 1500 rpm 60 Hz / 1800 rpm
STANDBY POWER PRIME POWER STANDBY POWER PRIME POWER
kWm (net) kWe kVA kWm
(net) kWe kVA kWm (net) kWe kVA kWm
(net) kWe kVA
F32SM1F 4L/TC/I-EGR M 3,2 Stage IIIA 32 28 35 29 26 32 – – – – – – 88% -
N45SM1F 4L/TC/I-EGR M 4,5 Stage IIIA 60 55 68 55 50 63 – – – – – – 91% -
N45TE1F 4L/TAA/I-EGR ECR 4,5 Stage IIIA / Tier 3 80 73 91 73 66 83 87 79 99 79 72 90 91% •
N45TE2F 4L/TAA/I-EGR ECR 4,5 Stage IIIA / Tier 3 98 90 113 89 82 102 122 112 140 111 102 128 92% •
N67TM1F 6L/TAA/I-EGR M 6,7 Stage IIIA 125 115 144 114 105 131 – – – – – – 92% -
N67TE1F 6L/TAA/I-EGR ECR 6,7 Stage IIIA / Tier 3 145 133 167 132 121 152 157 144 181 142 131 163 92% •
N67TE2F 6L/TAA/I-EGR ECR 6,7 Stage IIIA / Tier 3 165 154 192 150 140 175 202 188 236 183 171 213 93% •
N67TE3F 6L/TAA/I-EGR ECR 6,7 Stage IIIA / Tier 3 195 181 227 175 163 203 212 197 246 192 179 223 93% •
CURSOR87TE3F 6L/TAA/I-EGR ECR 8,7 Stage IIIA / Tier 3 256 238 298 232 216 270 280 260 326 254 236 295 93% •
CURSOR87TE4F 6L/TAA/I-EGR ECR 8,7 Stage IIIA / Tier 3 292 272 339 262 244 305 320 298 372 287 267 334 93% •
CURSOR13TE1F 6L/TAA/I-EGR EUI 12,9 Stage IIIA / Tier 3 327 309 386 296 280 350 309 292 365 278 263 328 94% •
CURSOR13TE2F 6L/TAA/I-EGR EUI 12,9 Stage IIIA / Tier 3 372 354 443 336 320 400 334 318 397 300 286 357 95% •
F32SM1X 4L/TC/I-EGR M 3,2 Tier 3 – – – – – – 47 41 51 42 37 46 88% -
F32TM1X 4L/TAA/I-EGR M 3,2 Tier 3 – – – – – – 57 51 64 52 47 59 91% -
N45SM1X 4L/TC/I-EGR M 4,5 Tier 3 – – – – – – 57 52 65 53 48 60 91% -
N45SM2X 4L/TC/I-EGR M 4,5 Tier 3 – – – – – – 67 61 76 61 56 69 91% -
N45TM2X 4L/TAA/I-EGR M 4,5 Tier 3 – – – – – – 95 87 109 87 80 100 92% -
N67TM1X 6L/TAA/I-EGR M 6,7 Tier 3 – – – – – – 141 130 162 128 118 147 92% -
N67TE1X 6L/TAA/I-EGR ECR 6,7 Tier 3 – – – – – – 165 152 190 150 138 173 92% -
N67TE2X 6L/TAA/I-EGR ECR 6,7 Tier 3 – – – – – – 200 186 233 182 169 212 93% -
CURSOR13TE3X 6L/TAA/I-EGR EUI 12,9 Tier 3 – – – – – – 371 349 436 337 317 396 94% -
1500
/180
0 RPM
SWITC
HABLE
MODELCY
LINDER
ARRA
NGEMEN
T
AIR IN
TAKE
EXHAU
ST SY
STEM
INJEC
TION SY
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DISPLA
CEMEN
T
LITER
S
EMISS
IONS TY
PICAL
GENER
ATOR E
FF.
UR UnregulatedUR1 Previously EU Stage II2 Complies to TA Luft (1986) regulations3 TÜV measured based on TA-Luft standards
LEGENDARRANGEMENTL In line
AIR INTAKENA Naturally AspiratedTAA Turbocharged AftercoolerTC Turbocharged
EXHAUST SYSTEMI-EGR Internal Exhaust Gas RecirculationDOC Diesel Oxydation CatalystSCR Selective Catalytic ReductionCUC Clean-up Catalyst
INJECTION SYSTEMM MechanicalECR Electronic Common RailEUI Electronic Unit Injector
• 1500 rpm / 1800 rpm switchable engine- not switchable engine** Fan absorption: 1%-6%
kVA kiloVolt Ampere calculations based on a 0.8 power factor
1. Preliminary data
BARE ENGINESREGULATED EMISSIONS
50 Hz / 1500 rpm 60 Hz / 1800 rpm
STANDBY POWER PRIME POWER STANDBY POWER PRIME POWER
kWm (gross) kWe** kVA** kWm
(gross) kWe** kVA** kWm (gross) kWe** kVA** kWm
(gross) kWe** kVA**
N45ENTZW681 4L / TAA / DOC + SCR+CUC ECR 4,5 Tier 4 Final – – – – – – 85 78 97 77 70 88 93% -
N45ENTZW69 4L / TAA / DOC + SCR+CUC ECR 4,5 Tier 4 Final – – – – – – 126 116 145 115 106 132 93% -
N67ENTZW611 6L / TAA / DOC + SCR+CUC ECR 6,7 Tier 4 Final – – – – – – 145 129 161 132 116 145 93% -
N67ENTZW621 6L / TAA / DOC + SCR+CUC ECR 6,7 Tier 4 Final – – – – – – 167 149 186 152 135 169 93% -
N67ENTZW68 6L / TAA / DOC + SCR+CUC ECR 6,7 Tier 4 Final – – – – – – 195 175 219 177 158 198 93% -
N67ENTZW69 6L / TAA / DOC + SCR+CUC ECR 6,7 Tier 4 Final – – – – – – 223 200 251 203 182 227 93% -
CURSOR87ENTZW61 6L / TAA / DOC + SCR+CUC ECR 8,7 Tier 4 Final – – – – – – 260 233 291 236 210 263 93% -
CURSOR87ENTZW62 6L / TAA / DOC + SCR+CUC ECR 8,7 Tier 4 Final – – – – – – 282 253 316 256 229 286 93% -
CURSOR87ENTZW68 6L / TAA / DOC + SCR+CUC ECR 8,7 Tier 4 Final – – – – – – 309 281 351 281 255 318 94% -
CURSOR87ENTZW69 6L / TAA / DOC + SCR+CUC ECR 8,7 Tier 4 Final – – – – – – 330 301 376 300 273 341 94% -
CURSOR13ENTZW61 6L / TAA / DOC + SCR+CUC ECR 12,9 Tier 4 Final – – – – – – 353 324 404 321 294 368 94% -
CURSOR13ENTZW68 6L / TAA / DOC + SCR+CUC ECR 12,9 Tier 4 Final – – – – – – 380 350 438 345 318 397 95% -
CURSOR13ENTZW69 6L / TAA / DOC + SCR+CUC ECR 12,9 Tier 4 Final – – – – – – 424 391 488 385 355 443 95% -
1500
/180
0 RPM
SWITC
HABLE
MODELCY
LINDER
ARRA
NGEMEN
T
AIR IN
TAKE
EXHAU
ST SY
STEM
INJEC
TION SY
STEM
DISPLA
CEMEN
T
LITER
S
EMISS
IONS TY
PICAL
GENER
ATOR E
FF.
UR UnregulatedUR1 Previously EU Stage II2 Complies to TA Luft (1986) regulations3 TÜV measured based on TA-Luft standards
LEGENDARRANGEMENTL In line
AIR INTAKENA Naturally AspiratedTAA Turbocharged AftercoolerTC Turbocharged
EXHAUST SYSTEMI-EGR Internal Exhaust Gas RecirculationDOC Diesel Oxydation CatalystSCR Selective Catalytic ReductionCUC Clean-up Catalyst
INJECTION SYSTEMM MechanicalECR Electronic Common RailEUI Electronic Unit Injector
• 1500 rpm / 1800 rpm switchable engine- not switchable engine** Fan absorption: 1%-6%kVA kiloVolt Ampere calculations based on a 0.8 power factor1. Preliminary data
THE
S800
0 SE
RIE
S
Developed with customer needs in mind, FPT Industrial’s S8000 G-Drive range answers demands for reduced complexity, ideal for remote locations and ensures high power output levels at a lower cost of ownership.
Engineered to FPT’s renowned reliability levels these engines also feature best in class maintenance intervals. The S8000 G-Drive is designed for all emergency and prime power applications that do not require compliance to emission regulation.
THE ENERGY OF INNOVATION
S8000
DIESEL GENERATOR DRIVE FOR POWER GENERATION APPLICATION
G-DRIVE ENGINESNOT REGULATED EMISSIONS
50 Hz / 1500 rpm 60 Hz / 1800 rpm
STANDBY POWER PRIME POWER STANDBY POWER PRIME POWER
kWm (net) kWe kVA kWm
(net) kWe kVA kWm (net) kWe kVA kWm
(net) kWe kVA
S8000AM13 3L/NA M 2,9 UR 31 27 34 28 25 31 34 30 37 31 27 34 88% •
1500
/180
0 RPM
SWITC
HABLE
MODELCY
LINDER
ARRA
NGEMEN
T
AIR IN
TAKE
EXHAU
ST SY
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INJEC
TION SY
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DISPLA
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EMISS
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GENER
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UR Unregulated3 TÜV measured based on TA-Luft standards
LEGENDARRANGEMENTL In line
AIR INTAKENA Naturally Aspirated
INJECTION SYSTEMM Mechanical
• 1500 rpm / 1800 rpm switchable engine- not switchable enginekVA kiloVolt Ampere calculations based on a 0.8 power factor
Features
Based on simple and proven mechanical rotary pump, S8000 engine has a direct fuel injection system which is state-of-the-art for accurate fuel delivery. Electronic speed governor delivered as standard in order to be best in class in load acceptance and frequency stability.
MECHANICAL INJECTION SYSTEM WITH ELECTRONIC GOVERNOR
Compact 3 Cylinder in-line with big unit displacement and long stroke.ENGINE DESIGN
Lean lay-out; starting temperature without auxiliaries down to -5°C (with heat greater down to -12°C).Tropicalized radiator delivered as standard in order to work in harsh conditions (Air To Boil up to 65°C)
SPECIFIC FEATURES
S8000 engine is available in naturally aspirated version with cooling package rack mounted on engine (non fix on frame is required).
AIR HANDLING
Optimum engine design in terms of mechanical clearances, piston rings, engine oil system calcula-tion and optimized engine structure to limit cylinder liners deformation.
600H OIL INTERVAL CHANGE
Integrated CCV (Closed Crankcase Ventilation) system and engine design oriented to high com-ponent integration. Oil and water pumps are fully integrated in the block.
COMPONENT INTEGRATION
Possibility to switch from 1.500 rpm to 1.800 rpm (50Hz/60Hz).DUAL SPEED MODE
Class G2 of ISO 8528 standard certification of excellent performance related to load acceptance.PERFORMANCE
Benefits
SIMPLE AND EASY TO INSTALL SOLUTION PICK-UP FREE
COMPACT PACKAGING AND INSTALLATION FOOTPRINT
HIGH PERFORMANCE GUARANTEED IN ALL CONDITIONS
HIGH POWER DENSITY SIMPLE AND EASY TO INSTALL SOLUTION
REDUCED MAINTENANCE NEEDS AND OPERATING COST
LEAKAGE PREVENTION
PRODUCT FLEXIBILITY BASED ON MARKET REQUEST
Benefits100% TRANTRANSIENT LOAD RESPONSE FOR ANY STAND-BY AND PRIME APPLICATION
THE
F5 S
ERIE
S
Featured by customer oriented design, the F5 Series stands out for low operating costs and extremely easy maintenance thanks to single side servicing.
These benefits are combined with excellent perfor-mance, which allows the engines to be used for the most demanding missions (high engine inclination, cold starting at temperatures down to -25°C).
The F5 Series
F32 AM
F32 TM
F32 SM
G-DRIVE ENGINESREGULATED EMISSIONS
50 Hz / 1500 rpm 60 Hz / 1800 rpm
STANDBY POWER PRIME POWER STANDBY POWER PRIME POWER
kWm (net) kWe kVA kWm
(net) kWe kVA kWm (net) kWe kVA kWm
(net) kWe kVA
F32SM1F 4L/TC/I-EGR M 3,2 Stage IIIA 32 28 35 29 26 32 – – – – – – 88% -
F32SM1X 4L/TC/I-EGR M 3,2 Tier 3 – – – – – – 47 41 51 42 37 46 88% -
F32TM1X 4L/TAA/I-EGR M 3,2 Tier 3 – – – – – – 57 51 64 52 47 59 91% -
1500
/180
0 RPM
SWITC
HABLE
MODELCY
LINDER
ARRA
NGEMEN
T
AIR IN
TAKE
EXHAU
ST SY
STEM
INJEC
TION SY
STEM
DISPLA
CEMEN
T
LITER
S
EMISS
IONS TY
PICAL
GENER
ATOR E
FF.
LEGEND
ARRANGEMENTL In line
• 1500 rpm / 1800 rpm switchable engine- not switchable enginekVA kiloVolt Ampere calculations based on a 0.8 power factor
AIR INTAKETAA Turbocharged AftercoolerTC Turbocharged
EXHAUST SYSTEMI-EGR Internal Exhaust Gas Recirculation
INJECTION SYSTEMM Mechanical
FeaturesClass G2 of ISO 8528 standard certification of excellent performance relatedto load acceptance.
PERFORMANCE
Based on simple and proven mechanical rotary pump, F5 engines have a direct fuel injection system which is state-of-the-art for accurate fuel delivery. The mechanical pump is the best trade-off between performance and easy engine installation.
MECHANICAL INJECTION SYSTEM
Camshaft in crankcase, suspended oil pan, balancer counterweights incorporatedin crankshaft webs.
ENGINE DESIGN
Lean layout; starting temperature without auxiliaries down to –10°C (with grid heater down to -25°C).Most demanding emissions performance achieved without external EGR, VGT or electronics.
SPECIFIC FEATURES
F5 Series engines are available in naturally aspirated, turbocharged and turbocharged with aftercooler versions, in order to reach the highest engine performance in terms of load acceptance and fuel consumption. These features allow final users to optimize their engine installation & final genset performance.
AIR HANDLING
Optimum engine design in terms of mechanical clearances, piston rings, engine oil system calculation and optimized engine structure to limit cylinder liners deformation.
600H OIL INTERVAL CHANGE
Integrated CCV (Closed Crankcase Ventilation) system and engine design oriented to high component integration. Water-oil cooler, oil and water pumps with by-pass are fully integrated in the block.
COMPONENT INTEGRATION
Options for electronic speed governor; hot part guards, water jacket heater, alarm senders, oil drain systems, front radiator guard.
OPTION LIST
One side (left) engine maintenance layout and worldwide service network.SERVICEABILITY & MAINTAINABILITY
SIMPLE AND EASY TO INSTALL SOLUTION, CONSISTENT WITH STANDARD AND ALTERNATIVE FUELS
VIBRATION & NOISE REDUCTION
HIGH PERFORMANCE GUARANTEEDIN ALL CONDITIONS
HIGH ENGINE POWER DENSITY WITH THE SHORTEST LOAD RESPONSE TIME
REDUCED MAINTENANCE NEEDSAND OPERATING COST
LEAKAGE PREVENTION
CUSTOMER ORIENTATIONAND SPECIFIC ENGINE ARCHITECTURE BASED ON APPLICATION TYPE
QUICK SERVICE SUPPORTAND EASY MAINTENANCE
BenefitsEXCELLENT TRANSIENT LOAD RESPONSE FOR SEVERAL POWER GENERATION APPLICATIONS
THE
NEF
SER
IES
Developed to satisfy the most demanding customer requirements, the NEF Series is the evidence of FPT Industrial technological excellence.
Available in 4 and 6 cylinders, with mechanical or Common Rail injection system, the NEF Series stands out for reliability and reduced fuel consumption.
The NEF Series
N45 AM
N45 SM
N45 TM
N67 SM
N45 TE
N67 TM
N67 TENef
NefNef
G-DRIVE ENGINESNOT REGULATED EMISSIONS
50 Hz / 1500 rpm 60 Hz / 1800 rpm
STANDBY POWER PRIME POWER STANDBY POWER PRIME POWER
kWm (net) kWe kVA kWm
(net) kWe kVA kWm (net) kWe kVA kWm
(net) kWe kVA
N45AM1A3 4L/NA M 4,5 UR1 46 40 51 42 37 46 - - - - - - 88% -
N45AM2 4L/NA M 4,5 UR 50 44 55 45 40 50 - - - - - - 88% -
N45SM1A3 4L/TC M 4,5 UR1 59 54 67 53 48 60 65 59 74 59 54 67 91% •
N45SM3 4L/TC M 4,5 UR 81 74 92 73 66 83 87 79 99 79 72 90 91% •
N45TM2A3 4L/TAA M 4,5 UR1 96 88 110 88 81 101 107 98 123 98 90 113 92% •
N45TM33 4L/TAA M 4,5 UR 118 109 136 107 98 123 122 112 140 111 102 128 92% •
REGULATED EMISSIONS50 Hz / 1500 rpm 60 Hz / 1800 rpm
STANDBY POWER PRIME POWER STANDBY POWER PRIME POWER
kWm (net) kWe kVA kWm
(net) kWe kVA kWm (net) kWe kVA kWm
(net) kWe kVA
N45SM1F 4L/TC/I-EGR M 4,5 Stage IIIA 60 55 68 55 50 63 – – – – – – 91% -
N45TE1F 4L/TAA/I-EGR ECR 4,5 Stage IIIA / Tier 3 80 73 91 73 66 83 87 79 99 79 72 90 91% •
N45TE2F 4L/TAA/I-EGR ECR 4,5 Stage IIIA / Tier 3 98 90 113 89 82 102 122 112 140 111 102 128 92% •
N45SM1X 4L/TC/I-EGR M 4,5 Tier 3 – – – – – – 57 52 65 53 48 60 91% -
N45SM2X 4L/TC/I-EGR M 4,5 Tier 3 – – – – - - 67 61 76 61 56 69 91% -
N45TM2X 4L/TAA/I-EGR M 4,5 Tier 3 – – – – – – 95 87 109 87 80 100 92% -
1500
/180
0 RPM
SWITC
HABLE
MODELCY
LINDER
ARRA
NGEMEN
T
AIR IN
TAKE
EXHAU
ST SY
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INJEC
TION SY
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DISPLA
CEMEN
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LITER
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EMISS
IONS TY
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GENER
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FF.
1500
/180
0 RPM
SWITC
HABLE
MODELCY
LINDER
ARRA
NGEMEN
T
AIR IN
TAKE
EXHAU
ST SY
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INJEC
TION SY
STEM
DISPLA
CEMEN
T
LITER
S
EMISS
IONS TY
PICAL
GENER
ATOR E
FF.
UR UnregulatedUR1 Previously EU Stage II3 TÜV measured based on TA-Luft standards
LEGEND
ARRANGEMENTL In line
AIR INTAKENA Naturally AspiratedTAA Turbocharged AftercoolerTC Turbocharged
EXHAUST SYSTEMI-EGR Internal Exhaust Gas Recirculation
INJECTION SYSTEMM MechanicalECR Electronic Common Rail
• 1500 rpm / 1800 rpm switchable engine- not switchable enginekVA kiloVolt Ampere calculations based on a 0.8 power factor
G-DRIVE ENGINESNOT REGULATED EMISSIONS
50 Hz / 1500 rpm 60 Hz / 1800 rpm
STANDBY POWER PRIME POWER STANDBY POWER PRIME POWER
kWm (net) kWe kVA kWm
(net) kWe kVA kWm (net) kWe kVA kWm
(net) kWe kVA
N67SM1 6L/TC M 6,7 UR 121 111 139 110 101 127 138 127 159 125 115 144 92% •
N67TM2A3 6L/TAA M 6,7 UR1 126 116 145 114 105 131 141 130 162 128 118 147 92% •
N67TM3A3 6L/TAA M 6,7 UR1 152 140 175 138 127 159 165 152 190 149 137 171 92% •
N67TM4 6L/TAA M 6,7 UR 165 152 190 150 138 173 - - - - - - 92% -
N67TE2A2 6L/TAA ECR 6,7 UR1 193 179 224 175 163 203 215 200 250 195 181 227 93% •
N67TM7 6L/TAA M 6,7 UR 195 181 227 177 165 206 195 181 227 177 165 206 93% •
N67TE8W3 6L/TAA ECR 6,7 UR 238 221 277 216 201 251 253 235 294 230 214 267 93% •
REGULATED EMISSIONS50 Hz / 1500 rpm 60 Hz / 1800 rpm
STANDBY POWER PRIME POWER STANDBY POWER PRIME POWER
kWm (net) kWe kVA kWm
(net) kWe kVA kWm (net) kWe kVA kWm
(net) kWe kVA
N67TM1F 6L/TAA/I-EGR M 6,7 Stage IIIA 125 115 144 114 105 131 – – – – – – 92% -
N67TE1F 6L/TAA/I-EGR ECR 6,7 Stage IIIA / Tier 3 145 133 167 132 121 152 157 144 181 142 131 163 92% •
N67TE2F 6L/TAA/I-EGR ECR 6,7 Stage IIIA / Tier 3 165 154 192 150 140 175 202 188 236 183 171 213 93% •
N67TE3F 6L/TAA/I-EGR ECR 6,7 Stage IIIA / Tier 3 195 181 227 175 163 203 212 197 246 192 179 223 93% •
N67TM1X 6L/TAA/I-EGR M 6,7 Tier 3 – – – – – – 141 130 162 128 118 147 92% -
N67TE1X 6L/TAA/I-EGR ECR 6,7 Tier 3 – – – – – – 165 152 190 150 138 173 92% -
N67TE2X 6L/TAA/I-EGR ECR 6,7 Tier 3 – – – – – – 200 186 233 182 169 212 93% -
1500
/180
0 RPM
SWITC
HABLE
MODELCY
LINDER
ARRA
NGEMEN
T
AIR IN
TAKE
EXHAU
ST SY
STEM
INJEC
TION SY
STEM
DISPLA
CEMEN
T
LITER
S
EMISS
IONS TY
PICAL
GENER
ATOR E
FF.
1500
/180
0 RPM
SWITC
HABLE
MODELCY
LINDER
ARRA
NGEMEN
T
AIR IN
TAKE
EXHAU
ST SY
STEM
INJEC
TION SY
STEM
DISPLA
CEMEN
T
LITER
S
EMISS
IONS TY
PICAL
GENER
ATOR E
FF.
UR UnregulatedUR1 Previously EU Stage II2 Complies to TA Luft (1986) regulations3 TÜV measured based on TA-Luft standards
LEGENDARRANGEMENTL In line
AIR INTAKETAA Turbocharged AftercoolerTC Turbocharged
EXHAUST SYSTEMI-EGR Internal Exhaust Gas Recirculation
INJECTION SYSTEMM MechanicalECR Electronic Common Railr
• 1500 rpm / 1800 rpm switchable engine- not switchable enginekVA kiloVolt Ampere calculations based on a 0.8 power factor
Mechanical Engines – Features Class G2 of ISO 8528 standard certification of excellent performance related to load acceptance.
PERFORMANCE
The easy-to-maintain rotary pump is the core of the NEF mechanical series. The system is based on direct fuel injection for accurate fuel delivery and is adaptive with standard and alternative fuels. The NEF mechanical injection system is the best trade-off between product cost effectiveness and performance.
INJECTION SYSTEM
Possibility to switch from 1500 rpm to 1800 rpm (only one homologation engine rate).DUAL SPEED MODE
Minimum cold starting temperature without auxiliaries down to -10°C (with grid heater down to -25°C).Tier 3 and Stage IIIA performances achieved without external EGR or VGT.
SPECIFIC FEATURES
NEF Series engines are available in naturally aspirated, turbocharged and turbocharged with aftercooler versions in order to reach the highest engine performance in terms of load acceptance & fuel consumption. These features allow final users to optimize their engine installation & final genset performance.
AIR HANDLING
NEF Series adopts combustion chambers optimized to reduce oil dilution and are designed with an optimum engine design in terms of mechanical clearances, piston rings andengine oil system calculation.
UP TO 800H OIL INTERVAL CHANGE
Worldwide service network. Engines featured with a proven mechanical injection system without electronic interfaces and without external EGR.
SERVICEABILITY & MAINTAINABILITY
Options for electronic speed governor; hot part guards, water jacket heater, alarm senders, oil drain systems, front radiator guard.
OPTION LIST
Balancer counterweights incorporated in crankshaft webs, rear gear train layout, camshaft in crankcase, suspended oil pan, ladder frame cylinder block.
ENGINE DESIGN
Integrated CCV (Closed Crankcase Ventilation) system and engine design oriented to high component integration. Water-oil cooler, oil and water pumps are completely integrated in the engine block.
COMPONENT INTEGRATION
RELIABLE AND COST EFFECTIVE SOLUTION, CONSISTENT WITH STANDARD AND ALTERNATIVE FUELS
ENGINE ADAPTABLE TO MARKET REQUEST
HIGH PERFORMANCEGUARANTEED IN ALL CONDITIONS
HIGH ENGINE POWER DENSITYWITH THE SHORTESTLOAD RESPONSE TIME
REDUCED MAINTENANCE NEEDSAND OPERATING COST
QUICK SERVICE SUPPORTAND EASY MAINTENANCE
CUSTOMER ORIENTATION AND SPECIFIC ENGINE BASED ON APPLICATION TYPE
VIBRATION AND NOISE REDUCTIONENGINE STRUCTURAL STIFFNESS
LEAKAGE PREVENTION
BenefitsEXCELLENT TRANSIENT LOAD RESPONSE FOR SEVERAL POWER GENERATIONAPPLICATIONS
Electronic Engines – Features Class G3 of ISO 8528 standard certification of excellent performance related to load acceptance
PERFORMANCE
Accurate fuel delivery provided by a very compact direct injection 2nd generation Common Rail @ 1.600 bar to achieve top performance in terms of load response and top power with the minimum fuel consumption.
INJECTION SYSTEM
Possibility to switch from 1500 rpm to 1800 rpm. User friendly thanks to interface card.DUAL SPEED MODE
Lean layout; starting temperature without auxiliaries down to -10°C (with grid heater down to -25°C). Demanding emissions performances achieved without external EGR or VGT.
SPECIFIC FEATURES
NEF Series engines are available in naturally aspirated, turbocharged and turbocharged with aftercooler versions in order to reach highest engine performance in terms of load acceptance & fuel consumption. These features allow final users to optimize their engine installation & final genset performance.
AIR HANDLING
NEF Series adopts combustion chambers and high pressure injection system optimized to reduce oil dilution. Optimum engine design in terms of mechanical clearances, piston rings and oil system calculation.
600H OIL INTERVAL CHANGE
Engine ECU (Electronic Control Unit) with CAN-BUS control & monitoring interfaces may be used for advanced real time diagnosis.
SERVICEABILITY & MAINTAINABILITY
Options for hot part guards, water jacket heater, alarm senders, oil drain systems,front radiator guard.
OPTION LIST
Integrated CCV (Closed Crankcase Ventilation) system and engine design oriented to high component integration. Water-oil cooler, oil and water pumps are completely integrated in the engine block.
COMPONENT INTEGRATION
Multiple injections, balancer counterweights incorporated in crankshaft webs, rear gear train layout, camshaft in crankcase, suspended oil pan, ladder frame cylinder block.
ENGINE DESIGN
FLAT TORQUE AND HIGH ENGINE THERMODYNAMIC PERFORMANCE WITH LOW FUEL CONSUMPTION
ENGINE ADAPTABLE TO MARKET REQUEST
HIGH PERFORMANCEGUARANTEED IN ALL CONDITIONS
HIGH ENGINE POWER DENSITYWITH THE SHORTESTLOAD RESPONSE TIME
REDUCED MAINTENANCE NEEDSAND OPERATING COST
QUICK SERVICE SUPPORTAND EASY MAINTENANCE
CUSTOMER ORIENTATION AND SPECIFIC ENGINE BASED ON APPLICATION TYPE
LEAKAGE PREVENTION
VIBRATION & NOISE REDUCTION
BenefitsEXCELLENT TRANSIENT LOAD RESPONSE FOR SEVERAL POWER GENERATIONAPPLICATIONS
THE
CU
RSO
R S
ERIE
S
If you are looking for top power, fast load response and high power density together with low fuel consumption, CURSOR Series is the best choice you can get.
Characterized by outstanding performance, the CURSOR Series is dedicated to stationary applica-tions from 256 to 557 kW. Superb performance is just one of the benefits of these engines: high reliability, long maintenance intervals, which means extremely low oper-ating cost, are the core values of the range.
The Cursor Series
C10 TE
C87 TE
C13 TE
G-DRIVE ENGINESNOT REGULATED EMISSIONS
50 Hz / 1500 rpm 60 Hz / 1800 rpm
STANDBY POWER PRIME POWER STANDBY POWER PRIME POWER
kWm (net) kWe kVA kWm
(net) kWe kVA kWm (net) kWe kVA kWm
(net) kWe kVA
CURSOR87TE43 6L/TAA ECR 8,7 UR 299 278 348 275 256 320 333 310 387 306 285 356 93% •
CURSOR13TE2A3 6L/TAA EUI 12,9 UR1 330 308 384 300 280 350 360 336 419 327 305 381 93% •
CURSOR13TE3A3 6L/TAA EUI 12,9 UR1 387 364 455 352 331 414 398 374 468 360 338 423 94% •
CURSOR13TE6W 6L/TAA ECR 12,9 UR 414 395 494 371 354 442 454 433 541 400 382 477 95% •
CURSOR13TE7W 6L/TAA ECR 12,9 UR 459 438 547 425 405 507 474 452 565 428 408 510 95% •
CURSOR16TE1W3 6L/TAA ECR 15,9 UR 557 529 661 505 480 600 578 549 686 523 497 621 95% •
REGULATED EMISSIONS50 Hz / 1500 rpm 60 Hz / 1800 rpm
STANDBY POWER PRIME POWER STANDBY POWER PRIME POWER
kWm (net) kWe kVA kWm
(net) kWe kVA kWm (net) kWe kVA kWm
(net) kWe kVA
CURSOR87TE3F 6L/TAA/I-EGR ECR 8,7 Stage IIIA / Tier 3 256 238 298 232 216 270 280 260 326 254 236 295 93% •
CURSOR87TE4F 6L/TAA/I-EGR ECR 8,7 Stage IIIA / Tier 3 292 272 339 262 244 305 320 298 372 287 267 334 93% •
CURSOR13TE1F 6L/TAA/I-EGR EUI 12,9 Stage IIIA / Tier 3 327 309 386 296 280 350 309 292 365 278 263 328 94% •
CURSOR13TE2F 6L/TAA/I-EGR EUI 12,9 Stage IIIA / Tier 3 372 354 443 336 320 400 334 318 397 300 286 357 95% •
CURSOR13TE3X 6L/TAA/I-EGR EUI 12,9 Tier 3 – – – – – – 371 349 436 337 317 396 94% -
1500
/180
0 RPM
SWITC
HABLE
MODELCY
LINDER
ARRA
NGEMEN
T
AIR IN
TAKE
EXHAU
ST SY
STEM
INJEC
TION SY
STEM
DISPLA
CEMEN
T
LITER
S
EMISS
IONS TY
PICAL
GENER
ATOR E
FF.
1500
/180
0 RPM
SWITC
HABLE
MODELCY
LINDER
ARRA
NGEMEN
T
AIR IN
TAKE
EXHAU
ST SY
STEM
INJEC
TION SY
STEM
DISPLA
CEMEN
T
LITER
S
EMISS
IONS TY
PICAL
GENER
ATOR E
FF.
UR UnregulatedUR1 Previously EU Stage II3 TÜV measured based on TA-Luft standards
LEGENDARRANGEMENTL In line
AIR INTAKETAA Turbocharged Aftercooler
EXHAUST SYSTEMI-EGR Internal Exhaust Gas Recirculation
INJECTION SYSTEMECR Electronic Common RailrEUI Electronic Unit Injector
• 1500 rpm / 1800 rpm switchable engine- not switchable enginekVA kiloVolt Ampere calculations based on a 0.8 power factor
FeaturesClass G3 of ISO 8528 standard certification of excellent performance related to load response.
PERFORMANCE
Accurate fuel delivery to achieve top performance in terms of load response and top power with low fuel consumption: · C87 with very compact 2nd generation Common Rail System; · C10 with electronic controlled unit injectors;· C13 with electronic controlled unit injectors and heavy duty Common Rail system.
INJECTION SYSTEM
Possibility to switch from 1500 rpm to 1800 rpm. User friendly thanks to interface card.DUAL SPEED MODE
Minimum cold starting temperature without auxiliaries down to -10°C(with grid heater down to -25°C). Most demanding emissions performance achieved without external EGR or VGT.
SPECIFIC FEATURES
Turbocharged with air-to-air charge cooled air system with 4 valves per cylinderto increase engine efficiency thanks to the optimization of thermodynamic performancein terms of load response & fuel consumption.
AIR HANDLING
CURSOR Series adopts combustion chambers and high pressure injection system optimizedto reduce oil dilution. Optimum engine design in terms of mechanical clearances,piston rings and oil system calculation.
600H OIL INTERVAL CHANGE
Worldwide service network. Engine ECU (Electronic Control Unit) with CAN-BUS control& monitoring interfaces may be used for advanced real time diagnosis.
SERVICEABILITY & MAINTAINABILITY
Multiple injections, balancer counterweights incorporated in crankshaft webs, rear geartrain layout, camshaft in crankcase, suspended oil pan, ladder frame cylinder block.
ENGINE DESIGN
Integrated CCV (Closed Crankcase Ventilation) system and engine design orientedto high component integration. Water-oil cooler, oil and water pumps are completelyintegrated in the engine block.
COMPONENT INTEGRATION
Options for hot part guards, water jacket heater, alarm senders, oil drain systems,front radiator guard.
OPTION LIST
EXCELLENT TRANSIENT LOAD RESPONSE FOR SEVERAL POWER GENERATIONAPPLICATIONS
HIGH ENGINE THERMODYNAMICPERFORMANCE WITH LOW FUELCONSUMPTION
ENGINE ADAPTABLE TO MARKET REQUEST
HIGH PERFORMANCE GUARANTEEDIN ALL CONDITIONS
HIGH ENGINE POWER DENSITYWITH THE SHORTESTLOAD RESPONSE TIME
REDUCED MAINTENANCE NEEDSAND OPERATING COST
QUICK SERVICE SUPPORT ANDEASY MAINTENANCE
VIBRATION & NOISE REDUCTIONENGINE STRUCTURAL STIFFNESS
LEAKAGE PREVENTION
CUSTOMER ORIENTATIONAND SPECIFIC ENGINE ARCHITECTURE BASED ON APPLICATION TYPE
Benefits
ENERGY SOLUTIONSPOWERED BYFPT INDUSTRIAL
FPT Industrial Power Generation offer includes open and soundproofed gensets, plant and after-sale services. The range of standard power sets covers the main applications, such as emergency services and self-generation.
FPT Industrial engines line-up for Power Generation segment includes F5, NEF, and CURSOR series ranging from 30 to 500 kVA. Products portfolio includes an extreme-ly wide offer of customized configurations.
Power sets in containers are available to provide high kVA output used in emergency installations and to generate electricity for on-shore and off-shore petroleum or gas platforms. Low voltage distribution panels, specific shelters and resistances complete the product mix. A strong customer orientation allows FPT Industrial to satisfy peculiar requirements of contractors, such as Armed Forces, telephone operators and energy distributors, with products tailor-made and turnkey supplied.
Environmental respect, top priority for FPT Industrial, finds in genset installations the perfect match with outstanding performance.
OPE
N G
ENSE
TSfr
om 3
0 to
400
kV
A
AIR INTAKENA Naturally AspiratedTC TurbochargedTAA Turbocharged Aftercooler
PRIME POWERMaximum power available with varying loads for an unlimited number of hours. The average power output during a 24 h period of operation must not exceed 80% of the declared prime power between the prescribed maintenance intervals and at standard environmental conditions. A 10% overload is permissible for 1 hour every 12 hours of operation.
STAND-BY POWERMaximum power available for a period of 500 hours/year with a mean load factor of 90% of declared stand-by power. No kind of overload is allowable for this use.
1. Performance according to ISO 8528 conditions. Power factor 0,82. Dry weight with standard accessories (may change depending on alternator type)
UR UnregulatedUR1 Previously EU Stage II
LEGEND
GLOSSARY
50 Hz 60 Hz
PRIME STAND-BY PRIME STAND-BY
GE F3230MA 30 33 – –
GE F3240MA 40 44 – –
GE F3250MA 50 55 – –
GE NEF45MA 45 50 – –
GENEF50M 50 55 55 60
GE NEF60MA 60 66 66 73
GE NEF75MA 75 82 – –
GENEF80M 80 88 85 95
GE NEF85MA 85 94 100 110
GE NEF100MA 100 110 110 121
GENEF120M 120 132 125 136
GENEF125M 125 138 138 160
GENEF130MA 130 143 145 160
GENEF160MA 160 176 170 187
GENEF170M 170 187 170 187
GENEF200EA 200 220 225 248
GENEF200M 200 220 200 220
GECURSOR250ED 250 275 270 297
GECURSOR300ED 300 330 330 363
GECURSOR350EA 350 385 380 418
GECURSOR400EA 400 440 420 462
MODEL
POWER kVA1
INJECTION SYSTEMM Mechanical InjectionECR Electronic Common RailEUI Electronic Unit Injector
Open gensets from 30 to 400 kVA
OPEN RANGE – 30 TO 400 kVAENGINE SPECIFICATION DIMENSIONS (mm)
G-DRIVE CYL / AIR INTAKE INJECTION SYSTEM DISPLACEMENT LITERS EMISSIONS L W H
F32AM1A 4L / NA M 3,2 UR1 1833 730 1416 590
F32SM1A 4L / TC M 3,2 UR1 1833 730 1416 635
F32TM1A 4L / TAA M 3,2 UR1 1833 730 1416 730
N45AM1A 4L / NA M 4,5 UR1 2300 730 1285 852
N45AM2 4L / NA M 4,5 UR 2300 730 1285 1000
N45SM1A 4L / TC M 4,5 UR1 2300 730 1322 886
N45SM2A 4L / TC M 4,5 UR1 2300 730 1322 902
N45SM3 4L / TC M 4,5 UR 2300 730 1475 1110
N45TM1A 4L / TAA M 4,5 UR1 2300 730 1475 1130
N45TM2A 4L / TAA M 4,5 UR1 2300 730 1475 1160
N45TM3 4L / TAA M 4,5 UR 2300 730 1475 1110
N67SM1 6L / TC M 6,7 UR 2800 780 1423 1300
N67TM2A 6L / TAA M 6,7 UR1 2800 780 1423 1315
N67TM3A 6L / TAA M 6,7 UR1 2800 780 1423 1440
N67TM4 6L / TAA M 6,7 UR 2800 780 1423 1440
N67TE2A 6L / TAA ECR 6,7 UR1 2800 780 1423 1570
N67TM7 6L / TAA M 6,7 UR 2800 780 1423 1440
CURSOR87TE1D 6L / TAA ECR 8,7 UR1 3020 1055 1690 1950
CURSOR10TE1D 6L / TAA EUI 10,3 UR1 3530 1100 1730 2500
CURSOR13TE2A 6L / TAA EUI 12,9 UR1 3530 1100 1730 2750
CURSOR13TE3A 6L / TAA EUI 12,9 UR1 3530 1285 1820 2800
DRY W
EIGHT
2
(Kg)
Features
· Compact layout · High quality level of components
RELIABILITY
· Manual or automatic control panel · 3P or 4P circuit breaker availability · Automatic Transfer Switch (available as option)
CUSTOMIZATION
· Best in class for oil and filters change intervals (600 hours) · Easy access for maintenance operations
MAINTENANCE & SERVICEABILITY
· Powered by low emissions enginesENVIRONMENTAL CARE
· Integrated Fuel Tank (F5 series: 80 lt; NEF series: 180 lt; CURSOR series: 500 lt)FLEXIBILITY
· Turbocharged with air-to-air charge cooled air system with 4 valves per cylinder to increase the engine efficiency by the optimization of thermodynamic performance in terms of load response & fuel consumption
AIR HANDLING
· Hot parts protection grids availabilitySAFETY
SOU
ND
PRO
OFE
D G
ENSE
TS
from
30
to 5
00 k
VA
AIR INTAKENA Naturally AspiratedTC TurbochargedTAA Turbocharged Aftercooler
PRIME POWERMaximum power available with varying loads for an unlimited number of hours.The average power output during a 24 h period of operation must not exceed 80% of the declared prime power between the prescribed maintenance intervalsand at standard environmental conditions. A 10% overload is permissible for 1 hour every 12 hours of operation.
STAND-BY POWERMaximum power available for a period of 500 hours/year with a mean load factor of 90% of declared stand-by power. No kind of overload is allowable for this use.
1. Performance according to ISO 8528 conditions. Power factor 0,8
UR UnregulatedUR1 Previously EU Stage II
LEGEND GLOSSARY
INJECTION SYSTEMM Mechanical InjectionECR Electronic Common RailEUI Electronic Unit Injector
Soundproofed gensetsfrom 30 to 500 kVA
50 Hz 60 Hz
STANDARDS SOUNDPROOFED RANGE – 30 TO 500 kVAENGINE SPECIFICATION
PRIME STAND-BY PRIME STAND-BY G-DRIVE CYL/AIR INTAKE INJECTION SYSTEMDISPLACEMENT
LITERSEMISSIONS
GS F3230 30 33 – – F32AM1A 4L/NA M 3,2 UR1
GS F3240 40 44 – – F32SM1A 4L/TC M 3,2 UR1
GS NEF45 45 50 – – N45AM1A 4L/NA M 4,5 UR1
GS NEF50-ne 50 55 55 60 N45AM2 4L/NA M 4,5 UR
GS NEF60 60 66 66 73 N45SM1A 4L/TC M 4,5 UR1
GS NEF75 75 82 85 90 N45SM2A 4L/TC M 4,5 UR1
GS NEF80-ne 80 88 100 110 N45SM3 4L/TC M 4,5 UR
GS NEF85 85 94 100 110 N45TM1A 4L/TAA M 4,5 UR1
GS NEF100 100 110 110 121 N45TM2A 4L/TAA M 4,5 UR1
GS NEF120-ne 120 132 125 136 N45TM3 4L/TAA M 4,5 UR
GS NEF125-ne 125 138 138 160 N67SM1 6L/TC M 6,7 UR
GS NEF130 130 143 143 160 N67TM2A 6L/TAA M 6,7 UR1
GS NEF160 160 176 170 187 N67TM3A 6L/TAA M 6,7 UR1
GS NEF170-ne 170 187 170 187 N67TM4 6L/TAA M 6,7 UR
GS NEF200-ne 200 220 200 220 N67TM7 6L/TAA M 6,7 UR
GS NEF200 200 220 225 248 N67TE2A 6L/TAA ECR 6,7 UR1
GS CURSOR250-ne 250 275 275 303 CURSOR87TE3 6L/TAA ECR 8,7 UR
GS CURSOR250 250 275 270 297 CURSOR87TE1D 6L/TAA ECR 8,7 UR1
GS CURSOR300-ne 300 330 330 363 CURSOR87TE4 6L/TAA ECR 8,7 UR
GS CURSOR300 300 330 330 363 CURSOR10TE1D 6L/TAA EUI 10,3 UR1
GS CURSOR350 350 385 380 418 CURSOR13TE2A 6L/TAA EUI 12,9 UR1
GS CURSOR400 400 440 420 462 CURSOR13TE3A 6L/TAA EUI 12,9 UR1
GS CURSOR500-ne 500 550 510 560 CURSOR13TE7W 6L/TAA ECR 12,9 UR
MODEL
POWER kVA1
Features
Significant improvement in terms of maneuverability: thanks to dedicated slots in the lower part of the frame and lifting hooks on the top, it’s possible to move the genset either by forklift or using a crane. The single lift hook, in rental version, contributes to further increase of handiness and safety transportation of the genset.
Low maintenance needs and running costs are ensured by best-in-class oil change interval of up to 800h. All day maintenance requirements can be easily performed thanks to wide doors giving full access to the engine and other components.
Thanks to the external fuel tank filler cap, it has been ensured an easy way to fill up the fuel tank; available upon request is the possibility to refuel from an external fuel tank through by-pass fuel lines. The fuel tank is integrated in the sub-base and it is equipped with two level indicators: a visual type directly on the tank and an electrical one with info displayed on the control panel.
Thanks to sound-absorbing fireproof panels, low noise levels are ensured and environmental impact is reduced; sound level is in line with market requirements (70dbA @ 7 m).Special anti-vibration supports anchor the genset to the base frame, minimizing vibrations and helping to reduce energy transfer to building structures and leading genset components to a longer life.
TRANSPORTABILITY
MAINTENANCE
REFUELING OPERATIONS
VIBRATIONS AND NOISE REDUCTION
MRS72 Manual Control Panel with Remote Start
• Start up and shut down keys through an external signal;• Engine and alternator parameters monitoring;• “Manual” and “Super-manual” operational modes;• Storage of last 250 events;• Multilingual diagnostic software (Italian, English, French and Spanish);• PC and/or on site (through optical key) programming;• Battery charger to ensure correct battery efficiency and command/control system alimentation (optional).
START
ENGINE STATUS
!
MRS72 | Remote Start Manual Controller
OK
STOP
TTEST
AAU
TO
MMAN
Optical Interface
XOFF
GEN
• Automatic start up when the voltage of the main electrical network changes from a predefined value (programmable);• Automatic insertion as main source of electrical energy as the working parameters are reached;• Automatic disengagement once the nominal voltage of the main electrical network is reached;• Programmable slow shut down to allow the engine cooling gradually;• Engine and alternator parameters monitoring;• “Manual”, “Automatic”, “Test“ and “Super-manual“ operational modes;• Storage of last 250 events;• Multilingual diagnostic software (Italian, English, French and Spanish);• PC and/or on site (through optical key) programming;• Maintenance program indicating the routine maintenance to be performed;• Battery charger to ensure correct battery efficiency and command/control system alimentation (optional).
AMF74 Automatic Control Panel
START
ENGINE STATUS
!
MAINS
AMF74 | Advanced Automatic Controller
OK
STOP
TTEST
AAU
TO
MMAN
Optical Interface
XOFF
GEN
TIER
4 FI
NA
LFO
R P
OW
ER
GEN
ERA
TIO
N
THE TIER4 FINAL SCR ONLY TECHNOLOGYFOR POWER GENERATION
Technological excellence and product innovation for FPT Industrial represent the truly determining factor and part of its primary strategic mission. The company is focusing its research and development activities in order to become the innovation leader in the industrial powertrain field and a reference provider of the most cost efficient powertrain solutions for Tier4 Final.
FPT Industrial patented HI-eSCR technology complies with the most stringent emissions requirements while still ensuring high installation flexibility coupled with layout optimization, resulting in the lowest possible cost increase. The breakthrough patented tecnology, based on experience of more than 25 years and over 1.000.000 engines produced, allows our engines to meet Tier4 Final guaranteeing a very high NOX conversion efficiency (over 95% versus 80-85% of best competitors), without resorting to ec-EGR and DPF.
To comply with Tier4 Final emissions, FPT Industrial’s longstanding SCR experience proves competitive advantages achieved with HI-eSCR, including best in class performance and total running costs.
During the combustion process, inside a Diesel engine, the chemical energy is transformed into a mechanical one. Because of the chemistry of combustion, several toxic substances are produced, of which the most harmful are Nitrogen Oxides (NOX) and Particulate Matter (PM).
Tier4 Final compliance implies a significant reduction of NOX and PM reaching a 90% abatement versus Tier3 emissioning step.
Scenario
NOX emissions reduced by 90% compared to Tier3
Introduction of an ammonia emission limit
NOX
Through continuous technical advances building upon a state-of-the-art engine range, Tier4 Final permits re-engineered engines, allowing our customers to retain their class-leading features, such as minimized total cost of ownership. Key to the optimization of combustion efficiency is high mean effective cylinder pressure and high injector nozzle pressures.
To achieve these goals, important changes to the crankcase and cylinder head design have been implemented. The engines fitted with the latest generation of multiple events Common Rail fuel injection equipment with peak nozzle pressures of up to 2200 bar. A new Electronic Control Unit has been introduced to manage both engine parameters and accurate control of the after-treatment system.
The new control unit has been designed to fully integrate engine and SCR functions. For the very best in environmental performance, the engines are equipped with closed circuit engine breathing systems.
Tier4 Final Engines
In addition, since the engine only breathes clean filtered air, rather than recirculated exhaust gases, engine wear maintenance is low with long intervals in between oil changes, with service intervals of up to 600h without increased oil sump. FPT Industrial Tier4 Final engines offer lower operating costs and reduced overall downtime for ease of maintenance.
Tier4 Final Diesel engines for Power Generation application
LEGENDARRANGEMENTL In line
BARE ENGINESREGULATED EMISSIONS
50 Hz / 1500 rpm 60 Hz / 1800 rpm
STANDBY POWER PRIME POWER STANDBY POWER PRIME POWER
kWm (gross) kWe** kVA** kWm
(gross) kWe** kVA** kWm (gross) kWe** kVA** kWm
(gross) kWe** kVA**
N45ENTZW681 4L / TAA / DOC + SCR+CUC ECR 4,5 Tier 4 Final – – – – – – 85 78 97 77 70 88 93% -
N45ENTZW69 4L / TAA / DOC + SCR+CUC ECR 4,5 Tier 4 Final – – – – – – 126 116 145 115 106 132 93% -
N67ENTZW611 6L / TAA / DOC + SCR+CUC ECR 6,7 Tier 4 Final – – – – – – 145 129 161 132 116 145 93% -
N67ENTZW621 6L / TAA / DOC + SCR+CUC ECR 6,7 Tier 4 Final – – – – – – 167 149 186 152 135 169 93% -
N67ENTZW68 6L / TAA / DOC + SCR+CUC ECR 6,7 Tier 4 Final – – – – – – 195 175 219 177 158 198 93% -
N67ENTZW69 6L / TAA / DOC + SCR+CUC ECR 6,7 Tier 4 Final – – – – – – 223 200 251 203 182 227 93% -
CURSOR87ENTZW61 6L / TAA / DOC + SCR+CUC ECR 8,7 Tier 4 Final – – – – – – 260 233 291 236 210 263 93% -
CURSOR87ENTZW62 6L / TAA / DOC + SCR+CUC ECR 8,7 Tier 4 Final – – – – – – 282 253 316 256 229 286 93% -
CURSOR87ENTZW68 6L / TAA / DOC + SCR+CUC ECR 8,7 Tier 4 Final – – – – – – 309 281 351 281 255 318 94% -
CURSOR87ENTZW69 6L / TAA / DOC + SCR+CUC ECR 8,7 Tier 4 Final – – – – – – 330 301 376 300 273 341 94% -
CURSOR13ENTZW61 6L / TAA / DOC + SCR+CUC ECR 12,9 Tier 4 Final – – – – – – 353 324 404 321 294 368 94% -
CURSOR13ENTZW68 6L / TAA / DOC + SCR+CUC ECR 12,9 Tier 4 Final – – – – – – 380 350 438 345 318 397 95% -
CURSOR13ENTZW69 6L / TAA / DOC + SCR+CUC ECR 12,9 Tier 4 Final – – – – – – 424 391 488 385 355 443 95% -
MODELCY
LINDER
ARRA
NGEMEN
T
AIR IN
TAKE
EXHAU
ST SY
STEM
INJEC
TION SY
STEM
DISPLA
CEMEN
T
LITER
S
EMISS
IONS TY
PICAL
GENER
ATOR E
FF.
• 1500 rpm / 1800 rpm switchable engine- not switchable engine** Fan absorption: 1%-6%1. Preliminary datakVA kiloVolt Ampere calculations based on a 0.8 power factor
EXHAUST SYSTEMDOC Diesel Oxydation CatalystSCR Selective Catalytic ReductionCUC Clean-up Catalyst
AIR INTAKENA Naturally AspiratedTAA Turbocharged AftercoolerTC Turbocharged
INJECTION SYSTEMECR Electronic Common Rail
1500
/180
0 RPM
SWITC
HABLE
Low operating costs thanks to combustion efficiency and long service intervals
Effective turbocharger solution for best in class performance
High performance for increased power density
Maintenance-free after-treatment solution for low running costs
No additional cooling system requirements thanks to EGR free solution
Due to the opposite reaction to combustion tempera-ture, the reduction of either of the combustion products (NOX or PM) implies the increase of the other one. In order to further reduce NOX, as required by Tier4 Final, it is necessary to work on separate combustion manage-ment and exhaust gas treatment systems simulataneously.
This means that Tier4 Final emission limits can be reached only through the use of SCR (Selective Catalytic Reduction), either with or without EGR. The use of an EGR system reduces the NOX emissions in the combus-tion chamber, through exhaust gas recirculation with a consequential increase in the production of particulate matter (PM) and a reduction in combustion efficiency.
FPT Industrial has chosen instead to increase the engine combustion efficiency to reduce the PM without using EGR or DPF, allowing engines to work at peak per-formance without compromise. The resulting increase in NOX is reduced in the SCR system, while improving fuel efficiency and overall power system reliability.
HI-eSCR system
FPT Industrial’s HI-eSCR solution is able to reduce NOX levels by more than 95%. The SCR Only technology allows for the introduction of a new integrated approach that is the result of extensive research by FPT Industrial, research that has led to the creation of numerous signifi-cant patents.
Patents
“Closed” loop control to allow precise dosing of NOX and Ammonia sensors to provide accurate info on the composition of exhaust gases and reduce the use of DEF/AdBlue
Adaptive DEF/AdBlue dosing system in order to cut the level of NOX emissions entering the SCR catalyst
Thermally insulated high turbulence mixing, to allow homogeneous hydrolysis of urea, creating correct distribution in exhaust gas flow
Improved exhaust gas temperature control to speed up SCR light-off in the cold part of emission cycle
All the components of the HI-eSCR after-treatment system are contained in a compact, and fully enclosed structure thereby not impeding body building or chassis equipment mounting activities, and minimizing the weight impact.
NOX
HI-eSCR main components are:
The whole system is fitted with a network of integrated sensors to control the NOX and any excess of NH3 (ammonia) emitted.
The DEF/AdBlue Supply Module
The DEF/AdBlue Dosing Module
The Diesel Oxidation Catalyst (DOC)
The DEF/AdBlue Mixer
The Selective Catalytic Reduction (SCR)
The Clean Up Catalyst
Exhaust gas flow coming from the engine enters the DOC, where NO is oxidized in NO2, in order to maxi-mize SCR catalyst’s efficiency conversion.
The ECU (Engine Control Unit), the brain behind the HI-eSCR system, checks, through a network of integrat-ed sensors, the amount of Water-Urea (DEF/AdBlue) solution required to be injected into the exhaust pipe. To increase the durability of the injector, the Dosing Module is cooled with the engine coolant.
The HI-eSCR after-treatment system adopts a catalyst converting NOX into Nitrogen (N2) and Water (H2O) thanks to the chemical reaction with a Water-Urea solution. In the end, the integrated CUC eliminates the remaining ammonia (NH3). The result is a reduction of NOX over 95%.
Main Components
HC Unburnt HydrocarbonsNOx Nitrogen OxidesCO Carbon MonoxideN2 NitrogenCO2 Carbon DioxideH2O Water
LEGEND
DIESEL OXIDATION CATALYSTNO NO2
HC, CO and PM oxidation
AdBlue ® / DEF INJECTIONHydrolysis NH3+ CO2
SELECTIVE CATALYTIC REDUCTIONNO and NO2 reduction by NH3 to N2 and H2O
CLEAN-UP CATALYSTResidual NH3 oxidation
*AdBlue ® / DEF = CO(NH2)2 + H2O
1
2
3
4
CO
HCCO2
N2
H2OCO2
NOX
3
4
SCR
DOC
CUC
2
NH3 NOx
N2 H2O
1
NH3
CO2
AdBlue ® / DEF *
AdBlue ® / DEF *
Supply module Electronic Control Unit
Mixer
Dosing module
Six reasons to choose HI-eSCR
FPT Industrial’s heritage in SCR technology is well-established.Since 2005 we have equipped more than 1.000.000 vehicles with this technology.
SCR HERITAGE1
2 Our engines are developed to maximize power density with the shortest load response time with minimal impact on the environment, due to the use of the HI-eSCR system.
OUTSTANDING PERFORMANCE
3 The efficiency of the combustion process optimizes fuel consumption reducing customer operating costs.
FUEL CONSUMPTION
4 Compared to competitor’s engines, the thermodynamic efficiency of the FPT Industrial solutions allows to maximize power output for each engine space requirement and complexity.
COMPACT PACKAGING
5 The optimized combustion process preserves oil’s physical properties reducing maintenance activities and related downtime.The engines maintain their best in class oil maintenance intervals of up to 600h, without an increased oil sump.
MAINTENANCE INTERVALS
6 HI-eSCR system allows the engine to reduce heat rejection of many internal engine components which leads to increased reliability.
HIGH RELIABILITY
Located in France, at Fécamp, 2HE is an FPT Industrial company offering a wide range of tailored power genera-tion solutions aimed to satisfy customers with specific
needs, such as Armies, oil and gas companies, energy providers, nuclear power stations and hospitals. 2HE offer includes “turnkey” supply, engineering support, production and installation, together with assistance service and customer training.
The company portfolio is enriched by special products like 400 Hz units for airport applications, gensets in con-
tainers up to 6 MWatt, specific shelters, energy systems for off-shore installations, resistances and low voltage distribution panels (specifically designed for nautical and nuclear applications).
Thanks to its proven expertise to manage complex project from blank sheet up to maintenance and service activity worldwide, 2HE is a reference in the highly spe-cialized power generation segment.
Fécamp
Paris
London
f r a n c e
U n i t e d K i n g d o m
E n g l i s h C h a n n e lM a n c h e
powered byFPT Industrial
Plant Plant + R&DR&D
LEGEND
All the pictures, drawings illustrations and descriptions contained in this brochure are based on product information available to FPT Industrial at the time of printing (31/01/2018).Some of the engine line-ups may refer to a specific market configuration which may not be present or offered for sale available in all other markets. The colors featured in this brochure may differ from the originals.FPT Industrial reserves the right to introduce any modifications, at any time and without any prior advance notice, to design, material, components equipment and/or technical specifications.
Graphic Design STAR S.p.A. Italy
FPT INDUSTRIAL S.p.A.Via Puglia 15, 10156 – Torino, [email protected]