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Why new long-duration energy storage technologies will soon replace lithium-ion on grid

Why new long-duration energy storage technologies will soon replace lithium-ion on grid
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Reshaping the future of the electric grid through low-cost, long-duration discharge batteries | US Department of Energy Science News

DOE/Argonne National Laboratory
Form Energy sprang out of JCESR research on the air-breathing sulfur battery. (Credit: Image courtesy of JCESR.)
A new era of energy provided by renewables may be close at hand, thanks to research begun at the Joint Center for Energy Storage Research (JCESR), a U.S. Department of Energy (DOE) Energy Innovation Hub led by DOE s Argonne National Laboratory, and continued at spinoff company Form Energy.
The challenge JCESR addressed is long duration storage stabilizing a renewable grid against several consecutive days of calm or overcast days when wind and solar generation is absent or severely limited. Today s lithium-ion batteries can discharge at full power for 4-6 hours, enough to stabilize against most intra-day variations due to passing clouds or fluctuating winds, or to extend solar electricity a few hours past sunset to serve the evening demand peak. A full day or consecutive days of windless or overcast weather is stabilized by n ....

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Reshaping the future of the electric grid through low-cost, long-duration discharge batteries

Reshaping the future of the electric grid through low-cost, long-duration discharge batteries
Credit: Courtesy of JCESR
Form Energy sprang out of JCESR research on the air-breathing sulfur battery.
A new era of energy provided by renewables may be close at hand, thanks to research begun at the Joint Center for Energy Storage Research (JCESR), a U.S. Department of Energy (DOE) Energy Innovation Hub led by DOE’s Argonne National Laboratory, and continued at spinoff company Form Energy.
The challenge JCESR addressed is long duration storage stabilizing a renewable grid against several consecutive days of calm or overcast days when wind and solar generation is absent or severely limited. Today’s lithium-ion batteries can discharge at full power for 4-6 hours, enough to stabilize against most intra-day variations due to passing clouds or fluctuating winds, or to extend solar electricity a few hours past sunset to serve the evening demand peak. A full day or consec ....

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