ABOUT CHP
Distributed energy
Distributed energy can make rational use of resources, reduce consumption and pollution, which also can be operated flexibly and economical.
Distributed Energy Features | CHP of heat and power features |
1.Energy efficiency: above 84%; | 1.CHP - A mode of energy in which electricity and heat coexist |
Cascade utilization of energy
100%FUEL | |||
High temperature | Moderate temperature 120℃-550℃ | Low temperature | Emission |
40% electricity | heat with | heating and | 15% emissions |
MWM Gas Generator Features
Highest effciency in its power range
1.Electrical effciency of up to 43.5 percent
2.Maximum proftability through rockbottom operating costs
3.More effciency through numerically optimized, lowloss flow design
Optimized lube oil management
1.Lowestinclass lube oil consumption: 0.1g/kWhel
2.Longer oil change intervals
3.Oil tank and integrated daily refll tank
Flanged genset concept
1.Vibrationdecoupled base frame for lower installation costs and reliable operation
2.Greater integrated lube oil volume
3.Integrated oil management
Improved turbo charger for a wide feld of deployment
1.Longer maintenance intervals
2.Wider suction air temperature window
Higher availability and longer useful life
1.Optimized combustion through evenly charged cylinders
2.Optimized combustion with lower peak pressure
3.Smoothly running, lowvibration genset
Maximum reliability
1.Very good island mode capability
2.Fulflls G1, G2 & G3 classes according to ISO 8528 with less than 10 steps in most applications
TPEM – the new control system
1.Easy humanmachine interface
2.Fully integrated remote access
3.Expanded scope, e.g. synchronization, power switch, and plant control
ABOUT CHP
Distributed energy
Distributed energy can make rational use of resources, reduce consumption and pollution, which also can be operated flexibly and economical.
Distributed Energy Features | CHP of heat and power features |
1.Energy efficiency: above 84%; | 1.CHP - A mode of energy in which electricity and heat coexist |
Cascade utilization of energy
100%FUEL | |||
High temperature | Moderate temperature 120℃-550℃ | Low temperature | Emission |
40% electricity | heat with | heating and | 15% emissions |
MWM Gas Generator Features
Highest effciency in its power range
1.Electrical effciency of up to 43.5 percent
2.Maximum proftability through rockbottom operating costs
3.More effciency through numerically optimized, lowloss flow design
Optimized lube oil management
1.Lowestinclass lube oil consumption: 0.1g/kWhel
2.Longer oil change intervals
3.Oil tank and integrated daily refll tank
Flanged genset concept
1.Vibrationdecoupled base frame for lower installation costs and reliable operation
2.Greater integrated lube oil volume
3.Integrated oil management
Improved turbo charger for a wide feld of deployment
1.Longer maintenance intervals
2.Wider suction air temperature window
Higher availability and longer useful life
1.Optimized combustion through evenly charged cylinders
2.Optimized combustion with lower peak pressure
3.Smoothly running, lowvibration genset
Maximum reliability
1.Very good island mode capability
2.Fulflls G1, G2 & G3 classes according to ISO 8528 with less than 10 steps in most applications
TPEM – the new control system
1.Easy humanmachine interface
2.Fully integrated remote access
3.Expanded scope, e.g. synchronization, power switch, and plant control
MODEL | Electrical Power | Efficiency(%) | Nox mg/m3 | Applicable gas | |||
LEES | MWM | Electrical | Thermal | Total | |||
LSMW400GSE3 | TCG3016V08 | 400 | 43.1 | 43.6 | 86.7 | 500 | NG |
42.8 | 41.9 | 84.7 | BIOG | ||||
LSMW600GSE3 | TCG3016V12 | 600 | 43.3 | 44.7 | 88.0 | 500 | NG |
42.1 | 44.0 | 86.1 | BIOG | ||||
LSMW800GSE3 | TCG3016V16 | 800 | 43.5 | 44.6 | 88.0 | 500 | NG |
42.4 | 43.8 | 86.2 | BIOG | ||||
LSMW1000GSE3 | TCG3016V16S | 1000 | 41.0 | 47.4 | 88.3 | 500 | NG |
LSMW1125GSE3 | TCG2020V12K | 1125 | 40.9 | 45.6 | 86.5 | 500 | NG |
LSMW1200GSE3 | TCG2020V12 | 1200 | 43.6 | 43.3 | 86.9 | 500 | NG |
42.5 | 43.8 | 86.3 | BIOG | ||||
LSMW1500GSE3 | TCG2020V16K | 1500 | 40.9 | 45.7 | 86.6 | 500 | NG |
LSMW1560GSE3 | TCG2020V16 | 1560 | 43.2 | 43.8 | 87.0 | 500 | NG |
42.0 | 44.1 | 86.1 | BIOG | ||||
LSMW2000GSE3 | TCG2020V20 | 2000 | 43.7 | 43.2 | 86.9 | 500 | NG |
42.6 | 44.2 | 86.8 | BIOG | ||||
LSMW3333GSE3 | TCG2032V12 | 3333 | 43.9 | 42.6 | 86.5 | 500 | NG |
LSMW4300GSE3 | TCG2032V16 | 4300 | 44.1 | 42.7 | 86.8 | 500 | NG |
3770 | 43.0 | 39.9 | 82.8 | 500 | BIOG |
MODEL | Electrical Power | Efficiency(%) | Nox mg/m3 | Applicable gas | |||
LEES | MWM | Electrical | Thermal | Total | |||
LSMW400GSE3 | TCG3016V08 | 400 | 43.1 | 43.6 | 86.7 | 500 | NG |
42.8 | 41.9 | 84.7 | BIOG | ||||
LSMW600GSE3 | TCG3016V12 | 600 | 43.3 | 44.7 | 88.0 | 500 | NG |
42.1 | 44.0 | 86.1 | BIOG | ||||
LSMW800GSE3 | TCG3016V16 | 800 | 43.5 | 44.6 | 88.0 | 500 | NG |
42.4 | 43.8 | 86.2 | BIOG | ||||
LSMW1000GSE3 | TCG3016V16S | 1000 | 41.0 | 47.4 | 88.3 | 500 | NG |
LSMW1125GSE3 | TCG2020V12K | 1125 | 40.9 | 45.6 | 86.5 | 500 | NG |
LSMW1200GSE3 | TCG2020V12 | 1200 | 43.6 | 43.3 | 86.9 | 500 | NG |
42.5 | 43.8 | 86.3 | BIOG | ||||
LSMW1500GSE3 | TCG2020V16K | 1500 | 40.9 | 45.7 | 86.6 | 500 | NG |
LSMW1560GSE3 | TCG2020V16 | 1560 | 43.2 | 43.8 | 87.0 | 500 | NG |
42.0 | 44.1 | 86.1 | BIOG | ||||
LSMW2000GSE3 | TCG2020V20 | 2000 | 43.7 | 43.2 | 86.9 | 500 | NG |
42.6 | 44.2 | 86.8 | BIOG | ||||
LSMW3333GSE3 | TCG2032V12 | 3333 | 43.9 | 42.6 | 86.5 | 500 | NG |
LSMW4300GSE3 | TCG2032V16 | 4300 | 44.1 | 42.7 | 86.8 | 500 | NG |
3770 | 43.0 | 39.9 | 82.8 | 500 | BIOG |
MODEL | Electrical Power | Efficiency(%) | Nox mg/m3 | Applicable gas | |||
LEES | MWM | Electrical | Thermal | Total | |||
LSMW400GSE3 | TCG3016V08 | 400 | 42.1 | 45.1 | 87.2 | 500 | NG |
41.7 | 43.4 | 85.1 | BIOG | ||||
LSMW600GSE3 | TCG3016V12 | 600 | 42.4 | 45.8 | 88.1 | 500 | NG |
41.7 | 43.6 | 85.3 | BIOG | ||||
LSMW800GSE3 | TCG3016V16 | 800 | 42.6 | 45.5 | 88.1 | 500 | NG |
41.9 | 43.3 | 85.1 | BIOG | ||||
LSMW1125GSE3 | TCG2020V12K | 1125 | 40.7 | 45.6 | 86.3 | 500 | NG |
LSMW1200GSE3 | TCG2020V12 | 1200 | 43.4 | 43.2 | 86.6 | 500 | NG |
42.8 | 42.8 | 85.5 | BIOG | ||||
LSMW1500GSE3 | TCG2020V16K | 1500 | 40.6 | 45.7 | 86.3 | 500 | NG |
LSMW1560GSE3 | TCG2020V16 | 1560 | 43.0 | 43.8 | 86.7 | 500 | NG |
42.3 | 43.1 | 85.4 | BIOG | ||||
LSMW2000GSE3 | TCG2020V20 | 2000 | 43.4 | 43.2 | 86.5 | 500 | NG |
42.7 | 43.3 | 86.0 | BIOG | ||||
LSMW3333GSE3 | TCG2032V12 | 3000 | 43.9 | 42.1 | 85.9 | 500 | NG |
LSMW4300GSE3 | TCG2032V16 | 4000 | 43.8 | 42.4 | 86.2 | 500 | NG |
3510 | 43.3 | 38.5 | 81.8 | 500 | BIOG |
MODEL | Electrical Power | Efficiency(%) | Nox mg/m3 | Applicable gas | |||
LEES | MWM | Electrical | Thermal | Total | |||
LSMW400GSE3 | TCG3016V08 | 400 | 42.1 | 45.1 | 87.2 | 500 | NG |
41.7 | 43.4 | 85.1 | BIOG | ||||
LSMW600GSE3 | TCG3016V12 | 600 | 42.4 | 45.8 | 88.1 | 500 | NG |
41.7 | 43.6 | 85.3 | BIOG | ||||
LSMW800GSE3 | TCG3016V16 | 800 | 42.6 | 45.5 | 88.1 | 500 | NG |
41.9 | 43.3 | 85.1 | BIOG | ||||
LSMW1125GSE3 | TCG2020V12K | 1125 | 40.7 | 45.6 | 86.3 | 500 | NG |
LSMW1200GSE3 | TCG2020V12 | 1200 | 43.4 | 43.2 | 86.6 | 500 | NG |
42.8 | 42.8 | 85.5 | BIOG | ||||
LSMW1500GSE3 | TCG2020V16K | 1500 | 40.6 | 45.7 | 86.3 | 500 | NG |
LSMW1560GSE3 | TCG2020V16 | 1560 | 43.0 | 43.8 | 86.7 | 500 | NG |
42.3 | 43.1 | 85.4 | BIOG | ||||
LSMW2000GSE3 | TCG2020V20 | 2000 | 43.4 | 43.2 | 86.5 | 500 | NG |
42.7 | 43.3 | 86.0 | BIOG | ||||
LSMW3333GSE3 | TCG2032V12 | 3000 | 43.9 | 42.1 | 85.9 | 500 | NG |
LSMW4300GSE3 | TCG2032V16 | 4000 | 43.8 | 42.4 | 86.2 | 500 | NG |
3510 | 43.3 | 38.5 | 81.8 | 500 | BIOG |