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- Alan@gelnkpower.com
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Skip to content ABOUT CHP
Distributed energy
Distributed energy can make rational use of resources, reduce consumption and pollution, which also can be operated flexibly and economical.
Cascade utilization of energy
CCEC Gas Generator Features
CCEC, as Cummins’ largest professional manufacturer of heavy-duty and high-power engines in China, has always been committed to exploring new engine technologies and starting the development of clean energy utilization.
▪ Universal adaptation of gas sources
Widely applicable to pipeline natural gas, biogas, landfill gas, oilfield associated gas, etc.
▪ Start automatic adaptation
Through the system’s automatic scanning capability, it can automatically adjust the air fuel ratio, reduce manual adjustment, and ensure smooth start-up.
▪ Stable and reliable control
Through Cummins mature gas system and control strategy, ALB Lean-burn technology, the engine works stably and reliably.
▪ Professional one-stop service
Through remote network teaching, on-site practical training, Internet of Things and Big data support, one-stop service and professional team ensure stable and efficient operation of equipment.
▪ Lower maintenance costs
Low oil consumption, long oil change cycle, and 80% of parts are universal.
▪ Aftercooling system
The 2 pump 2 loop cooling system has high cooling efficiency, improves intake density,and ensures sufficient intake volume.
▪ Low NOx emissions
Multiple emission stage can be selected, and without post-treatment equipment, NOx can be as low as 150PPM.
▪ Safety design and verification
Key components have been specially desiqned and validated based on the application characteristics of gas engines.
| Model | Engine | Electrical Power KW | Efficiency(%) | Gas Consumption | Nox mg/m3 | |
| LEES | CCEC | Electrical | Thermal | Nm3/h | ||
| LSC350NGE3 | K19N-G3 | 350 | 38 | 45 | 95.4 | 500 |
| LSC400NGE3 | K19N-G4 | 400 | 38 | 45 | 101.2 | 500 |
| LSL325GSE3 | K38N-G6 | 600 | 42 | 45 | 158.5 | 500 |
| LSC800NGE3 | K38N-G8 | 800 | 42 | 45 | 206.8 | 500 |
| LSC1000NGE3 | K50N-G10H | 1000 | 42 | 45 | 252.9 | 500 |
| LSC1200NGE3 | K50N-G12H | 1200 | 42 | 45 | 279.3 | 500 |
| Model | Engine | Electrical Power KW | Efficiency(%) | Gas Consumption | Nox mg/m3 | |
| LEES | CCEC | Electrical | Thermal | Nm3/h | ||
| LSC400NGE3-6 | K19N-G4S | 400 | 38 | 45 | 107.9 | 500 |
| LSC600NGE3-6 | K38N-G6S | 600 | 42 | 45 | 168.6 | 500 |
| LSC800NGE3-6 | K38N-G8S | 800 | 42 | 45 | 213.5 | 500 |
| LSC1000NGE3-6 | K50N-G10S | 1000 | 42 | 45 | 261.3 | 500 |
| LSC1200NGE3-6 | K50N-G12HS | 1200 | 42 | 45 | 279.3 | 500 |
Feel free to contact me, and I will be more than happy to answer all of your questions.
Optimized by Seraphinite Accelerator
