London-based Highview Power has contracted with Nebraska-based Tenaska Power Services to help develop up to four gigawatt-hour scale cryogenic energy storage plants in the U.S. over two years, with the first project expected to be developed in the ERCOT market.
Highview’s technology uses electricity to chill and liquefy air at -320°F, stores the liquid air in insulated, low-pressure tanks, and later exposes the liquid air to ambient temperatures to rapidly re-gasify the air, expanding it to 700 times its liquid volume, to power turbines to generate electricity. The firm notes that its system can be configured to also use waste heat and cold.
Highview has been operating a 5-megawatt cryogenic energy storage facility in Manchester, England since June 2018.
Highview Power says the levelized cost is $140/MWh for a 200 MW/2 GWh (10-hour) system, with no use of waste heat or cold. The firm adds that its technology permits “weeks’ worth of storage,” with the use of additional tanks.
For comparison, Lazard has estimated that battery storage has a levelized cost of $108 to $140 per MWh for a utility-scale PV-plus-storage application. All cost estimates are sensitive to the assumptions used, particularly the capital cost, and the cost of capital.
Highview sees ERCOT as a promising market because it is “a big wind market—we can co-locate with wind resources to store power during off-peak hours,” said Javier Cavada, president and CEO of Highview Power, in a pv magazine interview.
The cryogenic energy storage technology can support “intermittent renewable generation, energy arbitrage, peak shaving, ancillary services, transmission and distribution deferral, inertia services, reactive power, and voltage support,” he said.
Highview’s pilot-scale facility in England uses waste heat from adjacent landfill gas engines, said Mr. Cavada, and the technology can also use waste cold—for example, from an LNG import terminal, where liquified natural gas is being re-gasified to put on a gas distribution network. He said that LNG process may use sea water to warm the LNG, thus chilling the sea water, and “the cold is simply being dumped.”
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