Abstract
The main areas of large-scale development of solar energy are: —conversion of solar energy into low-grade heat, and using the latest in heating systems of residential, municipal facilities, public and industrial buildings that consume energy such as temperature capacity; —conversion of solar energy into electricity through photovoltaic and thermodynamic converters. This report provides short information of the dynamics of the creation and operation of solar power plants (SPP) with the thermodynamic conversion, and the criteria for reducing cost of electricity produced from them.
Highlights
In the world practice a view to obtaining electrical energy with the help of thermodynamic conversion of solar energy (SE), the following technologies are used: parabolic through collector (PTC), linear Fresnel, dish Stirling and solar tower [1]
The lists of the integrated solar combined cycle (ISCC) with PTC installed in the period from 2009 to 2015
As seen in table 4, solar thermal power plants based on PTC dominate around the world
Summary
In the world practice a view to obtaining electrical energy with the help of thermodynamic conversion of solar energy (SE), the following technologies are used: parabolic through collector (PTC), linear Fresnel, dish Stirling and solar tower [1]. On the basis of the abovementioned technologies today in the developed countries of the world are created big capacities solar power plants. In [1,2,3] are considered indicators the operational SPP solar tower and parabolic trough which capacity 100 MW and above. On a row with the purely thermodynamic transformation of SPP, are created integrated solar combined cycle (ISCC) power plants. Solar thermal power plants based on PTC dominate around the world As seen in table 4, solar thermal power plants based on PTC dominate around the world
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