https://www.sciencemag.org/news/2021/04/gravity-based-batteries-try-beat-their-chemical-cousins-winches-weights-and-mine-shafts

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[tower_1280]

Gravitricity generates electricity by dropping an iron weight down a
shaft.

Gravitricity/Peter Dibdin

Gravity-based batteries try to beat their chemical cousins with
winches, weights, and mine shafts

By Cathleen O'GradyApr. 22, 2021 , 2:35 PM

EDINBURGH, U.K.--Alongside the chilly, steel-gray water of the docks
here stands what looks like a naked, four-story elevator shaft--except
in place of the elevator is a green, 50-ton iron weight, suspended by
steel cables. Little by little, electric motors hoist the weight
halfway up the shaft; it is now a giant, gravity-powered battery,
storing potential energy that can be released when needed. And that
moment is now: With a metallic moan, the weight inches back down the
shaft. Reversing direction, the motors become electric generators,
sending up to 250 kilowatts of power back to the grid. For peak
power, the weight can descend in 11 seconds--but for testing purposes,
it moves just a few meters at "creep speed," says Douglas Hitchcock,
project engineer at Scottish startup Gravitricity.  

The company announced this week that its small-scale demonstrator is
now operational, capable of switching between drawing energy from the
grid and sending it back in a matter of seconds. The design offers an
alternative to the chemical batteries that dominate the global energy
storage market--a market that is growing hand in hand with renewable
power, which needs to bank energy when the Sun shines or the wind
blows, and release it when the grid faces high demand.

Gravitricity is one of a handful of gravity-based energy storage
companies attempting to improve on an old idea: pumped hydroelectric
power storage. Engineers would dam up a reservoir on a hill, pump
water to it at times of low demand (usually at night), and release it
to generate electricity. But the systems require specific terrain,
expensive infrastructure, and planning approval that is increasingly
hard to come by. These days, banking energy usually means hooking up
renewable power to giant batteries.

Yet gravity-based storage has some distinct advantages, says Oliver
Schmidt, a clean energy consultant and visiting researcher at
Imperial College London. Lithium-ion batteries, the technology of
choice for utility-scale energy storage, can charge and discharge
only so many times before losing capacity--usually within a few years.
But the components of gravity storage--winches, steel cables, and
heavy weights--can hold up well for decades. "It's mechanical
engineering stuff," Schmidt says. "It's relatively cheap." And
whereas mining the minerals for lithium-ion batteries brings
environmental and human rights problems and recycling the batteries
is hard, a bucket of iron has a much lighter footprint, says Miles
Franklin, Gravitricity's lead engineer.

Using Gravitricity's own cost and performance estimates, Schmidt
compiled a 2019 report for the company showing that all
told--including construction, running costs, and maintenance--gravity
storage can be cheaper than lithium-ion batteries. For a 25-year
project, he estimates that Gravitricity would cost $171 for each
megawatt-hour. Jessika Trancik, an energy storage researcher at the
Massachusetts Institute of Technology, says that number is
aspirational and still needs to be supported with field data. But
Schmidt's calculation of the lifetime cost per megawatt-hour for
lithium-ion batteries, $367, is more than twice as much. Flow
batteries, a promising grid-scale technology that stores charge in
large tanks of liquid electrolyte, come in at $274 per megawatt-hour.

Other gravity-based storage companies have their own twists on the
technology. The idea behind California-based Gravity Power is just a
small step away from pumped hydro: It uses renewable energy to pump
water under a heavy piston and lift it. When power is needed, the
piston weight is released, forcing the water through a hydroelectric
generator. The German company New Energy Let's Go uses a similar
design. Switzerland-based Energy Vault wants to use a multiarmed
crane with motors-cum-generators to stack and disassemble a
120-meter-tall tower made of hundreds of 35-ton bricks, like a Tower
of Babel that rises and falls with the vagaries of energy demand.
Gravitricity keeps it simple, with its clusters of elevatorlike
shafts. It plans to scale up to 500-ton weights, which would require
mammoth foundations for a tower--so the best place to put a full-scale
system is underground, says business development manager Ruth Apps.
The company is scoping out disused mines in the Czech Republic,
Poland, and South Africa for its first commercial projects.

The technology is still "incredibly immature," Schmidt cautions, and
although battery prices continue to drop, the gravity companies have
made little progress. Energy Vault, probably the leader of the pack,
announced in 2019 it had raised $110 million in investment, and plans
to start commercial developments this year. But like all storage
technologies, gravity-based storage will flounder if climate
regulations don't create incentives for carbon-free energy, says
Rebecca Willis, an environment policy researcher at Lancaster
University. In most places, she says, small natural gas plants that
can be easily turned on and off remain the cheapest way to cope with
fluctuations in demand.

With a small staff of 14 and just PS3 million in investment,
Gravitricity has no illusions about the hurdles ahead. As they put
the demonstrator through its paces, they have already turned up
unexpected difficulties--like the torques exerted by the steel cables,
which, like any rope, want to untwist as they lift the weight. After
working through these teething issues, the company by 2023 plans to
build a full-scale plant--with the heavier weights and a shaft nearly
1 kilometer deep that could produce up to 4 megawatts of peak power.

Ghosts of an ailing industry surround Gravitricity's test site: A
supply vessel serving North Sea oil rigs slumbers nearby. But on a
clear day, one can make out Scotland's energy future: the wind
turbines that dot the horizon less than 20 kilometers from here. Two
of Gravitricity's recent hires come from the oil and gas sector, Apps
says. And mining communities are thrilled at the prospect of turning
their heritage to something new: "They see the idea of having a
second life."

Posted in:

  * Engineering

doi:10.1126/science.abj1232

Cathleen O'Grady

Cathleen O'Grady

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