Researchers at the Pacific Northwest National Laboratory have made a breakthrough in energy storage technology with the development of a new type of battery called the liquid iron flow battery.
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AI Customer ServiceResearchers at the Pacific Northwest National Laboratory have made a breakthrough in energy storage technology with the development of a new type of battery called the liquid iron...
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AI Customer ServiceA new iron-based aqueous flow battery shows promise for grid energy storage applications. A commonplace chemical used in water treatment facilities has been repurposed for large-scale energy storage in a new battery design by researchers at the Department of Energy's Pacific Northwest National Laboratory.
Iron-based flow batteries designed for large-scale energy storage have been around since the 1980s, and some are now commercially available. What makes this battery different is that it stores energy in a unique liquid chemical formula that combines charged iron with a neutral-pH phosphate-based liquid electrolyte, or energy carrier.
Among the numerous all-liquid flow batteries, all-liquid iron-based flow batteries with iron complexes redox couples serving as active material are appropriate for long duration energy storage because of the low cost of the iron electrolyte and the flexible design of power and capacity.
Flow batteries are particularly well-suited for long duration energy storage because of their features of the independent design of power and energy, high safety and long cycle life , . The vanadium flow battery is the ripest technology and is currently at the commercialization and industrialization stage.
The larger the electrolyte supply tank, the more energy the flow battery can store. Flow batteries can serve as backup generators for the electric grid. Flow batteries are one of the key pillars of a decarbonization strategy to store energy from renewable energy resources.
Ultimately, a complete iron flow battery system was constructed by combining this electrolyte with a deep eutectic positive electrolyte. In the 360-hour cycle charge–discharge experiments, an average coulombic efficiency of over 98 % was achieved.
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