US-based tech startup Salgenx has unveiled a scalable saltwater flow battery for applications in renewable energy, telecommunication towers, oil well pumps, agriculture irrigation pumps, and greenhouse irrigation or lighting. The batteries are suitable for standalone storage or with solar or wind power.
“It is very suitable for solar power storage, with the added benefit of solar thermal storage in the salt water electrolyte tank,” CEO Gregory Giese told pv magazine.
The manufacturer said the new battery has an energy density of 125.7 Wh/L. It requires two large tanks filled with fluid electrolytes, one of which is saltwater and the other a proprietary electrolyte. The fluids are circulated through electrodes, which regulate the input and output of electricity from the battery.
The solution can be scaled by adding more electrodes and additional electrolyte tanks. Salgenx also offers the solution in 250 kW, 3 MWh, 6 MWh, 12 MWh, and 18 MWh configurations. The flow battery is membrane-free, unlike most redox flow batteries.
“The absence of the membrane saves huge upfront purchase costs, maintenance, and consumable expenses,” Salgenx says on its website.
The company claims that material costs of $5/kWh, $257kWh for system infrastructure, and a total system cost of $500,000, or $166/kW for the 3,000 kWh battery. The technology purportedly has a life expectancy of more than 25 years and a roundtrip efficiency of 91% at 10 mA/square centimeter.
The saltwater tank can be used simultaneously for thermal storage, in combination with a heat pump using carbon dioxide as a refrigerant.
“Typically the thermal savings using a heat pump and higher COP (coefficient of performance), may double that of electricity rate savings,” the company claims.
Salgenx develops the technology and sells licenses to third-party manufacturers to commercialize the solutions.
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The uk could really need the battery as we have had electric companies ask or pay customers to not use electric for hours a day
We have alit of wind and alot of solar tidal and the battery would make sense to villages and towns where its not windy all the time!
I think you meant $166/kWh, not $166/kW.