About Utilization of waste heat from solar power generation
Using waste heat as a co-product of electrical generation results in higher efficiencies, reduction of cost and a reduction in greenhouse gas (GHG) emissions per kWh of energy produced.
Using waste heat as a co-product of electrical generation results in higher efficiencies, reduction of cost and a reduction in greenhouse gas (GHG) emissions per kWh of energy produced.
Waste heat was mainly recovered by utilizing the heat for desalination, combining other thermodynamic cycles for power generation, or water heating applications. The summary of the studies performed on WHR from CSP based plants is discussed below.
The efficiency of generating power from waste heat recovery is heavily dependent on the temperature of the waste heat source. In general, economically feasible power generation from waste heat has been limited primarily to medium- to high-temperature waste heat sources (i.e., greater than 500 °F).
The investigated technologies and techniques include, the use of Heat Pipes to recover heat from the cooling line; regenerators to recover the waste heat from the exits of coke ovens, oven chambers, and blast furnaces; semi wet and wet open combustion and supressed combustion techniques for recovery from the basic oxygen furnaces; capturing and .
The Absorption Refrigeration Cycle (ARC) is a proven technology that utilises low-grade heat (solar energy and geothermal or waste heat) instead of electric power to operate the cycle. The generator and absorber act as thermal compressors [158].
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