The nation’s sprawling network of rural electric cooperatives has become a hotbed of clean tech innovation, and the latest example is a doozy. The Minnesota-based co-op Great River Energy is teaming with the somewhat mysterious Bill Gates-backed energy storage startup Form Energy to build a new battery that can discharge for 150 hours. That beats conventional batteries by a mile and it practically guarantees that wind and solar will dominate the US energy landscape in a few short years. The big question is, how does it work?

Energy Storage For Rural Electric Cooperatives…Socialism!
For those of you new to the topic, rural electric cooperatives were established as not-for-profit entities under federal law in 1933 to electrify rural America, at a time when 90% of rural homes still had no electricity. The unique status of rural co-ops enables them to experiment with new technology to a degree that would be impractical for conventional utilities.

So, now they are on a mission to bring wind power, solar power, and advanced energy storage to their service territories.

Great River Energy is a case in point. The co-op is already engaged in several clean tech initiatives including a “virtual thermal battery” that networks thousands of individual hot water heaters. The new Form Energy battery rockets their efforts into a whole new level.

A hint as to how the new energy storage system will impact Great River’s portfolio popped up just yesterday, when the co-op announced that it is slamming the door on its massive coal power plant in North Dakota in about two years and replacing it with new wind farms.

As for influence, Great River is the umbrella for 28 other co-ops that serve 700,000 households, farms, and businesses. That’s peanuts compared to the combined might of the National Rural Electric Cooperative Association. The organization counts about 900 electric co-ops on its membership rolls, serving 42 million people in a combined service territory that accounts for more than half of the nation’s land mass.

Not only that, but NRECA is a founding member of this thing called NRTC, which is bringing the renewable energy revolution to the rural telecommunications field.

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Form Energy, a secretive, long-duration energy storage startup funded by Bill Gates’ Breakthrough Energy Ventures and other investors is unstealthing — sort of.

The company has revealed that its fundamental energy storage technology is an “aqueous air battery system” that “leverages some of the safest, cheapest, most abundant materials on the planet” in order to commercially deploy a 1 MW/150 MWh long-duration storage solution.

Typical lithium ion battery storage systems provide four hours of storage compared to Form’s remarkable of 150 hours of storage. It’s not exactly the “seasonal” storage that Mateo Jaramillo, CEO of Form Energy, had spoken of in the past — but it’s a few orders of magnitude better than what can be done today.

(Although the term, “aqueous air battery system,” leaves us little more informed about the startup’s technology than when it was stealthed.)

The CEO, an energy storage veteran, has referred to the company’s product as a “bi-directional power plant” and claims that this level of duration allows for “a fundamentally new reliability function to be provided to the grid from storage, one historically only available from thermal generation resources.”

The first project

Form Energy’s first commercial project is a 1 MW, grid-connected storage system capable of delivering its rated power continuously for 150 hours with Minnesota-based utility Great River Energy.

Great River Energy is a not-for-profit wholesale electric power cooperative that provides electricity to 28 member-owner distribution cooperatives, serving 700,000 families, farms and businesses. It’s Minnesota’s second-largest electric utility.

“Commercially viable long-duration storage could increase reliability by ensuring that the power generated by renewable energy is available at all hours to serve our membership. Such storage could be particularly important during extreme weather conditions that last several days. Long-duration storage also provides an excellent hedge against volatile energy prices,” said Great River Energy VP Jon Brekke, in a release.

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Form Energy, which is developing what it calls ultra-low-cost, long-duration energy storage for the grid, has signed a contract with the Minnesota-based Great River Energy to develop a 1 megawatt, 150 megawatt hour pilot project.

The second-largest electric utility in the U.S., Great River Energy’s installation in Cambridge, Minn. will be the first commercial deployment of the venture-backed battery technology developer’s long-duration energy storage technology.

From Energy’s battery system is significant for its ability to deliver 1 megawatt of power for 150 hours — a huge leap over the lithium ion batteries currently in use for most grid-scale storage projects. Those battery systems can last for two- to four-hours.

The step change in the duration of energy delivery should allow energy storage projects to replace the peaking power plants that rely on coal and natural gas to smooth demand on the grid.

“Long duration energy storage solutions will play an entirely different role in a clean electricity system than the conventional battery storage systems being deployed at scale today,” said Jesse Jenkins, an assistant professor at Princeton University who studies low-carbon energy systems engineering, in a statement. “Lithium-ion batteries are well suited to fast bursts of energy production, but they run out of energy after just a few hours. A true low-cost, long-duration energy storage solution that can sustain output for days, would fill gaps in wind and solar energy production that would otherwise require firing up a fossil-fueled power plant. A technology like that could make a reliable, affordable 100% renewable electricity system a real possibility,”

Backed with over $49 million in venture financing from investors including MIT’s The Engine investment vehicle; Eni Next, the corporate venture capital arm of the Italian energy firm Eni Spa, and the Bill Gates-backed sustainability focused investment firm, Breakthrough Energy Ventures, Form Energy has developed a new storage technology called an “aqueous air” battery system.

“Our vision at Form Energy is to unlock the power of renewable energy to transform the grid with our proprietary long-duration storage. This project represents a bold step toward proving that vision of an affordable, renewable future is possible without sacrificing reliability,” said Mateo Jaramillo, the chief executive of Form Energy, in a statement.

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Integrated solar solutions company Q CELLS has officially launched a home solution that promises a “100% sustainable power supply,” through combining solar and battery storage to meet the majority of demand and a digital cloud solution to cover the rest.

Now available in Germany and expected to be “shortly” rolled out into other markets, the Q CELLS Q.HOME Cloud can either be added to new solar PV systems or retrofitted to existing systems. Customers can basically use the Cloud to connect to renewable energy generation in Germany and Austria and use it to source the remaining portion of energy that their solar-plus-battery system is unable to provide. The company says it adjusts the available and expected quota of energy to meet the size and location installation of each solar system and storage unit, claiming in a release sent today that “every customer receives a tailor-made, transparent and fair cloud solution”.

The early days of solar energy becoming a popular choice for homeowners in Germany and much of the rest of the world saw PV systems feed energy directly into the grid and the homeowner paid for the electricity in the form of feed-in tariffs (FiTs). Increasingly, feed-in tariff policies are ending or the sums paid are falling in price as governments phase FiTs out, making the self-consumption of solar energy the logical choice, partly enabled by the falling cost of home battery storage.

While residential solar and storage purchases are often an environmental decision or a decision made of the desire for energy dependence, in parts of the world where electricity is expensive, self-consumption can offer an opportunity to get system payback over time.

In some parts of the world including Germany, system owners can still receive some FiTs – albeit at reduced prices than before – for feeding surplus energy into the grid once their battery is full. In Japan, for example, new rules expected to come into effect in the next few years will stipulate that self-consumption must be achieved and only the surplus after demand is met can receive the feed-in tariff.

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Beside a sprawling solar panel factory in the eastern Chinese city of Suzhou stands a drab two-storey building that few people ever enter. Inside, stark rows of batteries store cheap electricity while the city sleeps each night. In the morning, when energy use and prices go up, the batteries release their power to the factory next door, reducing its electricity bill.

When this demonstration project started operating in 2017, it was a proof of concept for energy storage, an industry that was about to receive explicit support from the national government and which seemed sure to grow alongside renewable energy for decades to come.

Two-and-a-half years later, stalling reform, shifting policy and a slowing economy had put the sector in crisis even before the coronavirus pandemic struck. “It’s gotten very difficult to do energy storage,” says Paul Man, general manager of Anxin, an energy storage company, which is part of the Golden Concord energy conglomerate that owns the Suzhou solar panel factory. “If government policy doesn’t change, energy storage won’t be doable in China.”

According to industry group China Energy Storage Alliance (CNESA), newly installed battery-powered storage capacity shrank by nearly a quarter year-on-year in 2019. Companies whose sole business is energy storage “are under enormous pressure to survive, regardless of the epidemic,” says Wang Si, senior policy research manager at CNESA. “Some smaller companies will go bankrupt.”

Energy storage is, in theory, an attractive proposition. It can help keep down the energy costs of businesses and improve an electricity grid’s stability and flexibility. On a larger scale, energy storage will be crucial in moving countries from predictable but polluting fuels like coal to fickle but climate-friendly alternatives. In times with little wind or sunshine, giant batteries can keep the lights on. The Suzhou facility, at 10 megawatt-hours, has the capacity to power 1,600 homes for a day.

After the Chinese government gave official support in October 2017 by releasing its first national policy document on energy storage, newly installed electrochemical – battery-powered – energy storage capacity surged from 120.9 megawatts in 2017 to 682.9 megawatts in 2018, according to figures from CNESA. (There are various other storage technologies, but batteries receive the most interest for their flexibility in scale and location.)

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Customized Energy Solutions and the U.S. Energy Storage Association have released the StorageIQ Q1 2020 Quarterly Summary, a brief report outlining RTO/ISO actions, rulemaking and state and regulatory proceedings that have impacted energy storage across the United States in 2020.

The Northeast

In Q1, storage developments in the Northeast were led by three main markets: New York, Massachusetts and Virginia. In New York, NYISO’s Distributed Energy Resource filing, one which set the capacity value for storage at 2-, 4-, and 6-hour durations was approved by the Federal Energy Regulatory Commission (FERC). The state also approved changes to its Buyer Side Mitigation policy that will make it easier for storage to pass a Buyer Side Mitigation test and be deemed economical. New York committed over $200 million to proposed storage projects and NYSERDA opened existing incentives to bulk storage projects in the ConEdison territory, which includes the coveted storage markets of York City and the lower Hudson Valley.

Massachusetts, meanwhile, led all ISO-NE states in terms of regulatory developments relating to storage, namely at the Department of Public Utilities and the Department of Energy Resource, which submitted the finalized Clean Peak Standard. On the whole, ISO-NE was directed by FERC to improve practices in its capacity market auction, though claims of the mistreatment of storage in the auction were dismissed.

Virginia boasted the most notable legislative development related to storage, with the state passing a deployment target of 3,100 MW by 2035. Not to be overlooked, Maryland reauthorized and improved a first-in-the-nation energy storage tax credit program for businesses and households installing energy storage systems.

Central and West

ERCOT made meaningful strides in regards to the treatment of hybrid storage systems, advancing a Key Topic & Concept covering registration, market operation and settlement for dc-coupled systems.

Out West, CAISO filed energy storage model revisions to further comply with FERC’s Order 841, while the state of California’s public utilities commission advanced proceedings on the future of Resource Adequacy, Integrated Resource Planning (IRP), the Self-Generation Incentive Program, and microgrids. All of these topics, while differing in scope, highlight the consideration of both distributed and grid-connected storage being primary electric resource types in future generation mixes. Specifically, the IRP’s approved Reference System Portfolio sets a mandate for nearly 9 GW of new battery storage and another 1 GW of pumped or similar long-duration storage by 2030.

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Energy solutions company Alfen has seen its quarterly revenue climb across all three of its business lines, with its energy storage arm seeing revenues increase by 144% against the first quarter of 2019.

The Euronext Amsterdam exchange-listed company posted strong financial results as a whole for Q1 2020, with its EBITDA jumping from €1.7 million (US$1.83 million) in Q1 2019 to €4.6 million in Q1 2020.

Its EV charging equipment arm saw the biggest increase during the quarter, with its revenues jumping from €4.5 million in Q1 2020 to €13.2 million, an increase of 194%.

The company cited the growing market for EVs, increasing volumes under the framework agreements that have been set up over the last few years, “new client wins” and further internationalisation for its growth, adding that its business in the UK, the Netherlands and Germany experienced strong growth in particular. Over the quarter, it produced around 13,200 charge points, up 207% from Q1 2019.

Alfen is also planning to relocate its EV charging operation to larger facilities in a move to significantly expanding its production capacity.

Its energy storage systems business line meanwhile generated revenues of €3.2 million, up 144% from Q1 2019.

This was a result of a “significant pick-up in the demand for energy storage projects” in comparison to the first quarter of 2019, which Alfen said was characterised by “challenging market circumstances”.

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Electric utility Southern California Edison (SCE) has announced seven battery-based energy storage projects of 770MW total capacity.

The projects are aimed to bridge energy supply shortfalls in California, direct renewable energy to the grid and improve grid performance.

According to the California Public Utilities, the proposed storage projects will allow the state to meet its growing energy needs while maintaining efforts to reduce greenhouse carbon emissions by 2030.

William Walsh, SCE Vice President of Energy Procurement & Management, said: “These new emissions-free projects will help us ensure the reliability of the grid for our customers and integrate an ever-increasing amount of clean renewable energy over the next decade.”

The seven contracts form part of the SCE Pathway 2045, a research-based strategy to comply with carbon-neutrality by 2045.

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Fluence has been able to keep working on “all but two or three” of 73 utility-scale battery projects, with battery energy storage increasingly considered an essential part of grid infrastructure in many parts of the world.

Energy-Storage.news spoke to John Zahurancik, chief commercial officer at the technology provider formed in a joint venture (JV) between power project developer AES Corporation and engineering giant Siemens.

Zahurancik said that while there have been some necessary delays and adjustments to working practises to minimise the possibility of COVID-19 transmissions, nearly all of the company’s project pipeline is “moving ahead in one form or another”.

“We’re very actively out and doing installations of equipment in most pieces these are utility-scale energy storage installations that the construction of those has in most spots been exempted from restrictions on shutting a business down or it’s considered to be part of critical infrastructure development,” the Fluence COO said.

A ‘bigger and bigger part of the conversation’: Energy transition and economic recovery
Longer term, John Zahurancik said that energy storage will be “part of the conversation” in how economies move to restart and move forwards once the pandemic is finally under control. Energy storage has been an “increasing part of the conversation in terms of infrastructure,” in replacing ageing infrastructure as well as in terms of the transition to a cleaner and more efficient electrical grid already, he said.

“We see more of the infrastructure planners, whether those are utilities or regulatory bodies, or other people that are dealing with long-term infrastructure, include energy storage as part of their long-term planning cycles. We’re seeing people conduct solicitations, procurements for energy storage all around the world in different forms.

In some places it’s aimed at strengthening the generation side, in complement to renewables, in other cases it’s aimed at strengthening the transmission and distribution side, you even see energy storage at the customer-sited level for resiliency and cost reduction,” Zahurancik said.

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