2011年3月25日星期五

热电联产 Combined Heat and Power

Combined heat and power (CHP), also known as cogeneration, is the simultaneous production of electricity and heat from a singlefuel source, such as: natural gas, biomass, biogas, coal, waste heat, or oil.
CHP is not a single technology, but an integrated energy system that can be modified depending upon the needs of the energy end user.
CHP provides:
  • Onsite generation of electrical and/or mechanical power.
  • Waste-heat recovery for heating, cooling, dehumidification, or process applications.
  • Seamless system integration for a variety of technologies, thermal applications, and fuel types into existing building infrastructure.
The two most common CHP system configurations are:
  • Gas turbine or engine with heat recovery unit
  • Steam boiler with steam turbine

Gas Turbine or Engine With Heat Recovery Unit


Gas turbine or reciprocating engine CHP systems generate electricity by burning fuel (natural gas or biogas) to generate electricity and then use a heat recovery unit to capture heat from the combustion system's exhaust stream. This heat is converted into useful thermal energy, usually in the form of steam or hot water. Gas turbines/engines are ideally suited for large industrial or commercial CHP applications requiring ample amounts of electricity and heat.

Steam Boiler With Steam Turbine


Steam turbines normally generate electricity as a byproduct of heat (steam) generation, unlike gas turbine and reciprocating engine CHP systems, where heat is a byproduct of power generation. Steam turbine-based CHP systems are typically used in industrial processes, where solid fuels (biomass or coal) or waste products are readily available to fuel the boiler unit.

CHP Applications

CHP technology exists in a wide variety of energy-intensive facility types and sizes nationwide, including:
  • Industrial manufacturers - chemical, refining, ethanol, pulp and paper, food processing, glass manufacturing
  • Institutions - colleges and universities, hospitals, prisons, military bases
  • Commercial buildings - hotels and casinos, airports, high-tech campuses, large office buildings, nursing homes
  • Municipal - district energy systems, wastewater treatment facilities, K-12 schools
  • Residential - multi-family housing, planned communities

Benefits of CHP

CHP plays an important role in meeting the United States' energy needs as well as in reducing the environmental impact of power generation, including:
Efficiency Benefits
CHP requires less fuel to produce a given energy output, and avoids transmission and distribution losses that occur when electricity travels over power lines.
Reliability Benefits
CHP can be designed to provide high-quality electricity and thermal energy to a site regardless of what might occur on the power grid, decreasing the impact of outages and improving power quality for sensitive equipment.
Environmental Benefits
Because less fuel is burned to produce each unit of energy output, CHP reduces air pollution and greenhouse gas emissions.
Economic Benefits
CHP can save facilities considerable money on their energy bills due to its high efficiency and can provide a hedge against unstable energy costs.

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