CSP systems major categories

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All concentrating solar power (CSP) technologies use a mirror configuration to concentrate the sun’s light energy onto a receiver and convert it into heat. The heat can then be used to create steam to drive a turbine to produce electrical power or used as industrial process heat.

Concentrating solar power plants can integrate thermal energy storage systems to use to generate electricity during cloudy periods or for hours after sunset or before sunrise. This ability to store solar energy makes concentrating solar power a flexible and dispatchable source of renewable energy.

CSP systems can also be combined with combined cycle power plants resulting in hybrid power plants, that provide high-value, dispatchable power. They can also be integrated into existing thermal-fired power plants that use a power block like CSP, such as coal, natural gas, biofuel, or geothermal plants.

There are four types of CSP technologies, with the earliest in use being a trough and the fastest-growing as of 2017 being tower. For each of these, there are various design variations or different configurations, depending on whether thermal energy storage is included, and what methods are used to store solar thermally.

CSP systems come in all shapes and sizes, but most installations fall into one of four major categories:

  • Parabolic Trough Systems
  • Power Tower Systems
  • Linear Fresnel Systems
  • Parabolic Dish Systems

Parabolic Trough Systems:

In a parabolic trough CSP system, the sun’s energy is concentrated by parabolically curved, trough-shaped reflectors onto a receiver pipe — the heat absorber tube — running along about a meter above the curved surface of the mirrors. The temperature of the heat transfer fluid flowing through the pipe, usually thermal oil, is increased from 293ºC to 393ºC, and the heat energy is then used in the thermal power block to generate electricity in a conventional steam generator.

Power Tower Systems:

Power tower or central receiver systems utilize sun-tracking mirrors called heliostats to focus sunlight onto a receiver at the top of the tower. A heat transfer fluid heated in the receiver up to around 600ºC is used to generate steam, which, in turn, is used in a conventional turbine-generator to produce electricity.

Linear Fresnel Systems:

Similar to the long arrays of a parabolic trough CSP system, a Linear concentrating collector field consists of a large number of collectors in parallel rows. These are typically aligned in a north-south orientation to maximize annual and summer energy collection. The mirrors are laid flat on the ground and reflect the sunlight to the pipe above. Like trough and tower, Fresnel can also incorporate storage in a power block, or generate steam for direct use. Fresnel deployment database.

Parabolic Dish Systems:

A Parabolic dish system consists of a parabolic-shaped point focus concentrator in the form of a dish that reflects solar radiation onto a receiver mounted at the focal point. These concentrators are mounted on a structure with a two-axis tracking system to follow the sun. The collected heat is typically utilized directly by a heat engine mounted on the receiver moving with the dish structure. The dish can attain extremely high temperatures and holds promise for use in solar reactors for making solar fuels, which require very high temperatures. Stirling and Brayton cycle engines are currently favored for power conversion, although the dish has been seldom deployed commercially for power generation. Dish deployment database.

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Fintech Company

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