CHP cogeneration Articles
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Qualifying Combined Heat and Power (CHP) activity
The EU 2002 draft and 2004 final CHP Directives propose qualifying CHP activity with the quality norm. This norm benchmarks the energy efficiency of CHP plant outputs on external reference power and heat efficiencies. Because the quality norm amalgamates cogeneration and condensing activity its application entails particular perverse effects for high-quality and adapted scale investment in CHP ...
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Quantifying Combined Heat and Power (CHP) activity
In CHP plants without heat rejection facilities power, output is complementary to the recovery of heat, and all activity is cogeneration. CHP plants with heat rejection facilities can operate a mix of cogeneration and condensing activities. Quantifying the energy flows of both activities properly requires knowledge of the design power-to-heat ratios of the CHP processes (steam and gas turbines, ...
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Combined Heat and Power (CHP) essentials
'CHP essentials' introduces the concept of power and heat 'production possibility sets', starting at the cradle of CHP, i.e., the thermal power generation plant. The latter always occasions 'fatal' heat that is either recovered (the 'merit' of CHP) or wasted (condensing). This split paves the way to defining the production possibility sets of CHP plants, shown for steam turbines, internal ...
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What is Cogeneration?
Cogeneration is the process of generating both electrical and heat energy from a single fuel source. Also known as Combined Heat & Power (CHP), cogeneration makes use of the commonly discarded thermal energy which is generated from the combustion of fuels such as diesel, natural gas, bi-fuel, and even heavy fuel oil (HFO). The entire CHP process revolves around fuel-driven electric ...
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Landfills types of technologies for converting LFG into Energy
A number of factors, including the availability of an energy market, project costs, potential revenue sources, and other technical considerations, can determine which technologies are most appropriate for a particular landfill gas-to-energy (LFGE) project. Technologies for converting LFG into energy include the following. Electricity Generation Approximately 70 percent of the LFGE projects ...
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Much light, little heat efficiency
Energy efficiency in the US is much light and little heat – literally. Government policy pays a great deal of attention to saving electricity, but focuses little on the thermal energy we waste. “Policy is electricity-centric in the US. Unless you are making kilowatts, the most efficient investments are off the radar,” said Rob Thornton, president of the International District ...
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The Beltran biomass cogeneration system
An effective, economical solution for harvesting safe, renewable domestic energy, mitigating wastes and achieving environmental goals. Background The Beltran Biomass Cogeneration System (BBCS) is an integrated, three-stage process that uses proprietary gasification technology to convert biomass and other organic wastes into versatile, cleanburning synthesis gas. The purified gas can then be ...
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Qualvista Biogas Monitoring completes trial run in WWTP in Oregon U.S. Case Study
Clean Methane Systems and Qualvista have succesfully completed a four-month trial of next generation biogas and siloxane monitoring technology at the City of Gresham WWTP. Clean Methane Systems (http://methanesys.com) is the sales and service partner of Qualvista in North America. ...
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Huge scope of tiny thermal power plants
Steam energy is coming back very fast as blessing for distributed generation.There is bright scope of establishing 10 million tiny thermal power plants in India. Capacity of most of such tiny power plants will be from 2 kw to 20 kw and rarely up to 100 kw. Liberalization of power generation has opened vast opportunities for small generation capacities in villages. Such tiny power plants will have ...
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Pushing the Limits of Reengineering
Cutting-edge turbine technology enables more efficient and cleaner power generation. However, the service of advanced gas turbines is challenging—especially when parts need to be replaced. The example of a blade replacement project shows how Sulzer establishes innovative reengineering processes and contributes to a secure energy supply that causes less carbon emission. A Sulzer customer ...
By Sulzer Ltd.
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Machines and Technologies in Biogas Facilities
MACHINES, EQUIPMENT AND TECHNOLOGIES IN THE BIOGAS LINEIN WWTP A wastewater treatment plant (WWTP), also called a purification plant, has the generic objective of achieving, from black or mixed water and through different physical, chemical and biotechnological procedures, effluent water with better quality and quantity characteristics based on standardized parameters. In general, ...
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