https://eandt.theiet.org/content/articles/2022/04/freeze-thaw-battery-stores-electricity-long-term-for-seasonal-release/

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wind turbine in cold weather during the winter

'Freeze-thaw battery' stores electricity long-term for seasonal
release

Image credit: Dreamstime

By E&T editorial staff

Published Tuesday, April 5, 2022

A "freeze-thaw battery", which is designed to freeze its energy for
long-term storage, could help to balance the electricity grid during
winter from energy produced the previous summer.

The small prototype device, developed by scientists at the US
Department of Energy's (DOE) Pacific Northwest National Laboratory,
could be especially useful for storing energy from intermittent
sources, like solar and wind energy.

"Longer-duration energy storage technologies are important for
increasing the resilience of the grid when incorporating a large
amount of renewable energy," said Imre Gyuk, director of energy
storage at DOE's Office of Electricity, which funded the work. "This
research marks an important step toward a seasonal battery storage
solution that overcomes the self-discharge limitations of today's
battery technologies."

Renewable sources ebb and flow with natural cycles, which can make it
difficult to include them in a reliable, steady stream of
electricity.

In the Pacific Northwest in the spring, for instance, rivers heavy
with run-off power hydroelectric dams to the max just as winds blow
fiercely down the Columbia Gorge. All that power must be harnessed
immediately or stored for a few days at most.

Using the technology, energy firms could store that springtime energy
in large batteries and then release it later in the year, when the
region's winds are slow, the rivers are low, and demand for
electricity peaks.

The batteries would also enhance utilities' ability to weather a
power outage during severe storms, making large amounts of energy
available to be fed into the grid after a hurricane, a wildfire or
other calamity.

The battery is first charged by heating it up to 180degC, allowing ions
to flow through the liquid electrolyte to create chemical energy. The
battery is then cooled to room temperature, essentially locking in
the its energy. The electrolyte becomes solid and the ions that
shuttle energy become nearly stationary. When the energy is needed,
the battery is reheated and the energy flows.

The freeze-thaw phenomenon is possible because the battery's
electrolyte is molten salt - a molecular cousin of ordinary table
salt. The material is liquid at higher temperatures but solid at room
temperature. The freeze-thaw battery was shown to retain 92 per cent
of its capacity over 12 weeks.

The team avoided rare, expensive and highly reactive materials, and
made the anode and cathode out of easily available aluminium and
nickel. They're immersed in the molten-salt electrolyte which is
solid at room temperature but flows as a liquid when heated. The team
added sulphur, another low-cost element, to the electrolyte to
enhance the battery's energy capacity.

"Reducing battery costs is critical. That is why we've chosen common,
less-expensive materials to work with, and why we focused on removing
the ceramic separator," said corresponding author Guosheng Li, who
led the study.

The battery's energy is stored at a materials cost of about $23 per
kilowatt-hour, measured before a recent jump in the cost of nickel.
The team is exploring the use of iron, which is less expensive, in
hopes of bringing the materials cost down to around $6/kWh, roughly
15 times less than the materials cost of today's lithium-ion
batteries.

The battery's theoretical energy density is 260 watt-hours per
kilogram--higher than today's lead-acid and flow batteries.

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  * research and innovation
  * renewables
  * electricity
  * energy storage

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