Distributed Power Generation
Contact us to Implement Your Individualized Energy Solution!
Distributed energy generation offers economic and ecological benefits for system operators. By directly combining heat and power generation on site, avoiding transmission losses, and independence of the central grid, this technology contributes to increased efficiency and security of supply.
Flexibility and Adaptability Makes MWM Gensets Ideal for Remote Regions
Thanks to their flexibility and adaptability, MWM gas engines and CHP plants represent an ideal solution for a wide range of applications—from industrial plants to remote regions and locations—and thus an important part of the global energy transition.
Especially remote regions and locations benefit greatly from distributed energy generation with CHP plants and cogeneration power plants, as they are able to produce heat and power independently.
Energy Produced Directly Where It Is Needed
MWM gas engines, CHP plants, and cogeneration power plants are designed for distributed energy generation projects. A major benefit for companies is that heat and power can be produced directly on site by the CHP plants powered by MWM gas engines. Distributed CHP systems and cogeneration power plants are ideal for deployment in rural areas or industrial locations that are far away from central power plants. This offers both economic and operational benefits, as heat and power can be produced on site and be used directly without having to rely on external infrastructure. Distributed energy generation makes plant operators independent of external grids, which reduces the risk of outages in the event of fluctuating grid availability.
Higher Efficiency for Plant Operators
Combined heat and power generation can be used to generate heat and power on site, resulting in a higher total efficiency than with separate generation.
Distributed CHP plants and cogeneration power plants with MWM gas engines can be flexibly adapted to the needs and requirements of plant operators. They are suitable for numerous fields of application, e.g. for the waste-to-energy (WtE) industry, utilities and independent power producers (IPP), manufacturing industry, and projects in the context of the energy transition.
Take Your Energy Supply into Your Own Hands
High Flexibility in Application
- Distributed MWM CHP and CCHP plants and cogeneration power plants are ideal for the distributed provision of heat, power, cooling, and waste heat
- MWM plants can be flexibly and individually adapted to the specific needs of different segments and industries
- MWM plants can be operated with all types of gas, including natural gas, biogas, APG, landfill gas, mine gas, sewage gas, propane gas, and natural gas with hydrogen admixtures of up to 25 vol%
Efficient and Economical
- MWM gas engines offer electrical efficiencies of up to 45 percent
- The use of combined heat and power generation boosts the total efficiency of CHP plants and cogeneration power plants to up to 90 percent
- Low operating costs thanks to the optimized maintenance intervals of MWM gas engines and highly reliable distributed energy generation
- Efficient fuel consumption of gas engines reduces the operating costs of plant operators for energy generation
Ensuring Security of Supply
- MWM plants for distributed energy generation reduce dependence on municipal power producers and the associated energy costs
- Distributed CHP plants and cogeneration power plants are ideal for remote locations and regions where the grid supply is unreliable
- The continuous in-house energy supply with distributed plants ensures uninterrupted power supply for critical production processes
