• Energy storage wins a long-sought victory with Inflation Reduction Act
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Energy storage wins a long-sought victory with Inflation Reduction Act

A dedicated grid-storage tax credit will unleash a new wave of development for technologies critical to meeting U.S. climate goals.
By Julian Spector

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A row of white utility-scale battery units

Editor’s note, August 12: This story was originally published on August 3, 2022. It has been updated to reflect passage of the bill by Congress.

The relatively young energy-storage industry will get a proper seat at the clean energy policy table thanks to the Democrats’ climate bill, which passed both the House and Senate this week.

The U.S. conducts federal clean energy policy through tax credits, for better or worse. Wind and solar won dedicated tax credits years ago and rode them to the top of the charts, becoming the two largest sources of new power plant capacity in 2021. But until now, the technologies to store that renewable electricity have had to scrape by without their own tax credit. The best that storage plants could do was piggyback on solar projects in order to get a tax credit.

That’s not so bad for residential installations, where the primary reason for installing a battery is to store rooftop solar production. But massive utility-scale battery plants can do a lot of good in locations where solar installations are impossible or inadvisable, like densely packed population centers or strategically situated substations. Building more storage capacity makes the grid better at absorbing large amounts of renewable generation.

With the passage of the Inflation Reduction Act, energy-storage projects will now be able to benefit from federal support without needing to be located at the exact same spot as a solar farm. The act includes a stand-alone Investment Tax Credit (ITC) specifically for energy-storage projects, which will support all sorts of storage technologies.

This is going to create a much fairer situation on the grid and really increase the speed at which we can deploy storage nationwide,” U.S. Senator Martin Heinrich (D-New Mexico) told Canary Media the week before the Senate passed the bill.​“You’re going to see [storage] fill a lot of gaps where, because of this ITC, it ends up popping to the top of the solution set.”

Heinrich first introduced a stand-alone storage tax credit in 2016, to fill a critical gap in grid decarbonization efforts. As more renewables hit the grid, storage becomes more valuable for smoothing the ups and downs of clean energy production. But storage only gets built when developers believe they can make money from it, or when utilities determine it will cost-effectively meet their needs for the grid. Because of both the cost of deploying new technology and the power industry’s deeply rooted sense of caution, the storage buildout has lagged the renewables boom.

It didn’t have to take this long. Advocates have been pushing for this kind of stand-alone tax credit since storage was a science project,” said Katherine Hamilton, chair at clean energy policy shop 38 North Solutions. Hamilton has worked on this issue long enough to remember Oregon Senator Ron Wyden (D) proposing a storage credit back in 2009.

Still, even without a dedicated tax incentive, the scrappy storage industry pushed its way onto the power grid, and now is​“one of the fastest growing segments in the clean energy sector,” said Heather Zichal, CEO of industry group American Clean Power. The ITC will accelerate deployments even further. As Zichal told Canary Media last year, the stand-alone tax credit for storage has been one of her group’s top legislative priorities.

The storage analysts at research firm Wood Mackenzie projected that, without the tax credits in the Inflation Reduction Act or the earlier Build Back Better legislation, the U.S. would have only installed 100 gigawatts of grid-scale storage in the 10 years starting with 2022. (For comparison, the U.S. Energy Information Administration projected in January that the U.S. would install 5.1 GW of utility-scale batteries this year.)

Now that the act has become law, that 10-year outlook increases to a base case of 122 GW, said Dan Shreve, global head of energy storage at consultancy Wood Mackenzie. If conditions break even more favorably for the storage industry, deployments could approach the bullish case of 135 GW.

If you look at where we were about to go two weeks ago, it’s a completely different animal,” Shreve said.

Tax credit tied to labor standards and community benefits

The new storage ITC will chop 30 percent off the cost of a storage project. But to qualify, projects will need to meet labor standards for prevailing wages and apprenticeship. That’s an important protection for the energy workforce as it stares down historic shifts in how electricity is produced.

A storage project will be able to claim another 10 percent credit if it hits a threshold for domestically produced materials, and yet another 10 percent if it is located in a community that historically produced energy (and presumably will be affected by the energy transition), such as a community facing the closure of a coal-fired power plant.

There’s the potential to really stack benefits on the incentive side,” Heinrich said. 

Exactly how storage developers will be able to make use of those adders remains to be seen.

What is clear is that this policy will not be just for lithium-ion batteries, which have been the near-exclusive choice for grid storage technology in recent years. The ITC will be open to anything that stores energy, Hamilton noted, including older forms like pumped hydro, and new and emerging technologies for cost-effectively storing and discharging power over many hours.

You’ll get a lot more scale on some of those other long-duration technologies because of this,” Hamilton said.

The ITC will also cover thermal storage, a well-established technology that reduces energy needs for heating and cooling at crucial hours.

Prior to this legislation, renewable tax credits have followed a boom-and-bust cycle: They spurred installations for a few years, then were supposed to sunset, at which point the industry rallied its lobbying forces to win an extension for a few more years. The IRA would establish decade-long tax credits for storage and the other forms of clean energy — a kind of certainty the industry has never had from the tax code.

This bill sends the market signals: Energy storage is here to stay, and feel free to invest, because these aren’t going away for 10 years,” Hamilton said.

Storage projects on the edge will become profitable

The modern energy-storage industry became viable over the last decade as lithium-ion battery costs came down and revenue-making opportunities started to appear. But the battery price tag still deters grid battery construction outside a few geographic enclaves. That’s where the storage ITC can help, by reducing the capital cost of projects significantly.

That could get private developers off the fence in competitive markets. That’s where the storage boom started — with privately developed projects delivering the lightning-fast service known as frequency regulation in the mid-Atlantic PJM market. But that market quickly got saturated. Since then, large-scale batteries have tended to get built when they have utility contracts to guarantee some revenue. A few pioneering firms have gone it alone, building merchant storage plants in California and Texas, and developing them in New England. But they’re the outliers.

Now that investment costs for a power plant are poised to suddenly drop 30 percent, potentially up to 50 percent, that will make it much easier for a project to pay itself off. Merchant markets are still risky, and few companies have a track record of making money with merchant storage, but the ITC will shift the risk/​reward calculus in the right direction.

The other, much larger category of big batteries is utility-led. This includes projects built and owned by utilities, and projects built by independent developers to fulfill a utility contract. These projects have taken off in places where decarbonization policy pushes developers toward battery storage for new firm capacity — California and Hawaii, for instance. In other states, like Arizona and Colorado, utilities found the combination of solar and storage beat out other options on price.

In places where storage already pencils out, the ITC will mean federal taxpayers are buying down the cost of storage for local ratepayers. The project that was already a good deal will become a better deal. In the many parts of the country where utilities have yet to build battery storage at meaningful scale, the technology will become that much more competitive against other options.

Because it’ll drive down cost and drive up scale, [the IRA] will make storage much more part of how planning is done from the utilities and [independent system operators],” Hamilton said.​“It will open up states that did not have [storage] targets but can really use the services storage provides.”

And buyers who have been waiting to seal the deal until the long-simmering tax credits were finalized can finally move ahead.

We’ve had utilities tell us, We will not buy storage until the ITC passes,’” one storage developer told Canary Media.

For those concerned about decarbonization, the thing to watch is whether a storage ITC will mean that battery plants (charged from the grid, but benefiting from cheap renewable production) can beat out gas-burning plants for the role of peak power delivery.

Gas power-plant technology is not getting radically cheaper. And the fuel itself has gotten more expensive recently, with U.S. gas futures hitting their highest prices since 2008 this summer.

With the stand-alone storage tax credit, battery projects are immediately put in a much better position in terms of your delivered cost of electricity versus a gas peaker,” Shreve said.

Julian Spector is a senior reporter at Canary Media. He reports on batteries, long-duration energy storage, low-carbon hydrogen and clean energy breakthroughs around the world.