concentrated solar thermal plant with energy storage: how it works
solarreserve’s technology, typically referred to as concentrated solar power, uses thousands of mirrors to reflect and concentrate sunlight onto a central point to generate heat, which in turn is used to generate electricity. more than 10 thousand tracking mirrors called heliostats reside in a 2 square-mile field, where they reflect and concentrate sunlight onto a large heat exchanger called a receiver that sits atop a 550-foot tower.
within the receiver, fluid flows through the piping that forms the external walls; this fluid absorbs the heat from the concentrated sunlight. in solarreserve’s technology, the fluid utilized is molten salt, which is heated from 500 to over 1,000 degrees fahrenheit. molten salt is an ideal heat capture medium, as it maintains its liquid state even above 1,000 degrees fahrenheit, allowing the system to operate at low pressure for convenient energy capture and storage.
after passing through the receiver, the molten salt then flows down the piping inside the tower and into a thermal storage tank, where the energy is stored as high-temperature molten salt until electricity is needed.
solarreserve’s technology leverages liquid molten salt as both the energy collection and the storage mechanism, which allows it to separate energy collection from electricity generation.
when electricity is required by the utility, day or night, the high-temperature molten salt flows into the steam generator, as water is piped in from the water storage tank, to generate steam.
once the hot salt is used to create steam, the cooled molten salt is then piped back into the cold salt storage tank where it will then flow back up the receiver to be reheated as the process continues.
after the steam is used to drive the steam turbine, it is condensed back to water and returned to the water holding tank, where it will flow back into the steam generator when needed.
the hot molten salt generates high-quality super heated steam to drive a standard steam turbine at maximum efficiency to generate reliable, non-intermittent electricity during peak demand hours.
the steam generation process is identical to the process used in conventional gas, coal or nuclear power plants, except that it is 100 percent renewable with zero harmful emissions or waste.
solarreserve plants provide on-demand, reliable electricity from a renewable source – the sun – even after dark.