Pierre-Yves Badot. Read the testimonial. Don't miss our new tips Subscribe to our newsletter and stay informed about energyfacts. Your email address: We promise we will only use your data to send you our newsletter as stated in our privacy policy. Related questions How many green certificates am I entitled to? Is micro-cogeneration or cogeneration interesting for private homes? What are microgrids? What does my electric bike consume? How does a heat pump work?
Did you find this article useful? Your name Your email address. Tips on how to save energy! Gratis E-book 5 superhandige energietips Geen spam, beloofd! Je vindt er eindelijk het antwoord op vragen als: Wat verbruiken mijn huishoudtoestellen? Other fuel options include biogas, coal and biomass, which is especially attractive in agriculture. Heat is captured from both the fuel exhaust and engine jacket in most CHP setups. The system can also be integrated with industrial processes, so heat released by the process is recovered as well.
The heat released from the fuel and engine are used in the form of steam or hot water. Steam may first power a steam turbine in order to further increase the amount of electricity produced by the system. All remaining thermal power is used for space heating, cooling, domestic hot water and industrial processes. Privacy Policy Sitemap Designed by web design company Media. Contact Us Create an Account Login. What is CHP?
October How CHP Systems Work In their most basic form, combined heat and power systems are comprised of a prime mover, generator and heat recovery mechanism, as well as electrical interconnection with the building s powered.
Common CHP prime movers, or power sources, include: Steam turbine: Like in many traditional power plants, pressurized water is heated to steam using fuel.
Reciprocating engine: A combination of fuel combustion and piston action powers the generator. Comparing the efficiency and flexibility of MAN gas turbines and gas engines of the same output class in three different combined heat and power CHP processes involving steam and hot water generation. See how power-to-heat ratios and steam parameters affect the overall fuel utilization and therefore the profitability.
CHP solutions are extremely versatile, capable of producing far more than just electrical power. Combined heat and power technologies are proven, reliable and cost-effective systems, simultaneously generating electricity and heat from a single fuel source. CHP plants can easily adapt to changing electrical and thermal heat requirements throughout the year. Highly efficient trigeneration solutions also generate cold in addition to electricity and heat. Even in periods where there is no heat demand, the fast-starting gensets can be used as a peaking plant.
These energy-saving approaches can be customized to serve a wide range of industries and applications. We design reliable engine-based CHP solutions with the flexibility to meet your changing load requirements. Our engine-based CHP solutions are the ideal choice if your business focuses on electrical power generation and hot water production, e. We design CHP plants with engines that offer a great deal of flexibility in terms of the different electricity and thermal power demands that energy producers face throughout the year.
Compact in design, these systems are quick to install and easy to maintain. The high power density and fuel efficiency cut CO2 emissions and keep operating costs down.
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