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A Company Is Building a Giant Compressed-Air Battery in the
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Dan Gearino

Science
May 4, 2024 7:00 AM

A Company Is Building a Giant Compressed-Air Battery in the
Australian Outback

Hydrostor, a leader in compressed air energy storage, aims to break
ground on its first large-scale plant in New South Wales by the end
of this year. It plans to follow that with an even bigger facility in
California.
A rendering of Silver City Energy Centre a compressed air energy
storage plant to be built by Hydrostor in Broken Hill...
Courtesy of Hydrostor/Inside Climate News
Save
Save

This story originally appeared on Inside Climate News and is part of
the Climate Desk collaboration.

The need for long-duration energy storage, which helps to fill the
longest gaps when wind and solar are not producing enough electricity
to meet demand, is as clear as ever. Several technologies could help
to meet this need.

But which approaches could be viable on a commercial scale?

Toronto-based Hydrostor is one of the businesses developing
long-duration energy storage that has moved beyond lab scale and is
now focusing on building big things. The company makes systems that
store energy underground in the form of compressed air, which can be
released to produce electricity for eight hours or longer.

I spoke with Curtis VanWalleghem, Hydrostor's CEO and cofounder, to
get an update on how close he is to breaking ground on large plants
in Australia and California and to learn how he makes the case for
his company.

He emphasizes the simplicity of his product.

"It's a very simple system that just uses a hole in rock [plus] air
and water," he said. "And then the equipment is all from the oil and
gas industry, so you don't need new manufacturing or anything."

Some background on why long-duration storage matters: The grid of the
near future will require a mix of energy storage resources to fill
gaps when there are lulls in generation from wind and solar. Most
lithium-ion battery systems run for a maximum of four hours. Energy
system planners have said the grid will also need storage options
that can run six, eight, and 12 hours, and some that last as long as
a day or more.

Image of a illustration of Compressed Air Energy Storage
Courtesy of Paul Horn/Inside Climate News

The Department of Energy has identified the need for long-duration
storage as an essential part of fully decarbonizing the electricity
system, and in 2021 set a goal that research, development, and
investment would help to reduce the costs of the technologies by 90
percent in a decade.

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A variety of companies and technologies are competing for a share of
the market. This includes several types of long-duration batteries,
and some resources that have been around for a while, such as pumped
hydro storage at hydroelectric dams.

Hydrostor's first large project to go online is likely going to be
Silver City Energy Storage Centre in Australia, which will have the
ability to discharge at 200 megawatts for up to eight hours.
Construction should begin around the end of 2024 and the plant should
be running by mid-2027, VanWalleghem said.

The next project would be Willow Rock Energy Storage Center, located
near Rosamond in Kern County, California, with a capacity of 500
megawatts and the ability to run at that level for eight hours.
Hydrostor is aiming to begin construction by late next year and have
it running before 2030. But before that, the company needs to get a
permit from the California Energy Commission, a process that has
restarted after a brief pause.

Unlike some other long-duration storage companies, Hydrostor has
proven its technology. The company has operated a small,
1.75-megawatt plant in Goderich, Ontario, since 2019, which can run
for about six hours at a time. Compressed-air storage existed before
Hydrostor--plants in Germany and Alabama have been around for decades
and use variations on this approach.

Hydrostor's system uses a supersize air compressor that ideally would
run on renewable electricity. The system draws air from the
environment, compressing it and moving it through a pipe into a
cavern more than 1,000 feet underground. The process of compressing
the air produces heat, and the system extracts heat from the air and
stores it above ground for reuse. As the air goes underground, it
displaces water from the cavern up a shaft into a reservoir.

When it's time to discharge energy, the system releases water into
the cavern, forcing the air to the surface. The air then mixes with
heat that the plant stored when the air was compressing, and this
hot, dense air passes through a turbine to make electricity.

The long-term viability of the technology will be closely tied to how
its cost compares to other types of long-duration storage. The
California plant has a projected cost of about $1.5 billion, which
would make it competitive with pumped hydro and other available
options. The users of the plant's services would include Central
Coast Community Energy, a nonprofit power provider based in Monterey.

Image of a map shoing LongDuration Energy
Courtesy of Paul Horn/Inside Climate News
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VanWalleghem said there is room to push costs down as the company
gains experience from these first few plants. The storage systems
have a projected lifespan of about 50 years, which is an important
data point when comparing it to battery systems, which have much
shorter lives, he said.

Yiyi Zhou, an analyst for BloombergNEF, said Hydrostor is one of
about 100 companies that focus, at least in part, on developing
long-duration energy storage.

Hydrostor stands out, she said, because its technology is "relatively
mature" and the company has also been one of the most successful in
the space at raising money from investors.

BloombergNEF reported a global total of 1.4 gigawatts and 8.2
gigawatt-hours of long-duration energy storage as of last September,
excluding pumped hydro. The average duration, which you can calculate
by dividing gigawatt-hours by gigawatts, was 5.9 hours.

For perspective, the two Hydrostor projects being developed have a
combined capacity of 0.9 gigawatts, more than half of the global
total now online.

For this year and next, the long-duration storage technologies likely
to see the fastest adoption are compressed-air storage and flow
batteries, according to BloombergNEF. (I wrote an explainer on flow
batteries in 2022.)

I find it challenging to get my arms around this part of the clean
energy economy because of the large gap between what's been developed
and what's in some stage of planning. There are many opportunities
for projects to sputter and die along the way.

With this in mind, I'll be watching to see whether Hydrostor is able
to begin construction on schedule in Australia and whether it can
navigate the regulatory approval process for the plant in California.

The California project has gone through some big changes. At one
point, Hydrostor had two proposals in the state, but dropped one
because of challenges in the permitting process, including some
issues with building in a location overseen by the California Coastal
Commission. The remaining project, Willow Rock, has also gone through
changes to the design and the location in response to feedback from
the local community and from regulators.

The California Energy Commission paused its review of Willow Rock
last fall to give Hydrostor time to provide details on its updated
plan. The review process began again in March and could be complete
as soon as this time next year.

One of the factors to keep in mind is that California's state
government and the California Energy Commission have made clear that
they want to build long-duration energy storage. The state has
estimated that it will need 4 gigawatts of long-term energy storage
capacity to be able to meet the goal of 100 percent clean electricity
by 2045.

Hydrostor and state officials want to see this project get up and
running. If that happens, it could provide a showpiece to make the
case for building many others.

"We're just looking forward to the growth, just getting these
projects constructed and then start doing more, five, 10 projects at
a time," VanWalleghem said.

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