Invinity VRFB units at the Energy Superhub project in England, where the technology is paired with a 50MW lithium-ion BESS in a hybrid configuration. Image: Invinity Energy Systems.

Anglo-American flow battery provider Invinity Energy’s recent attainment of a key safety certification will open up doors for its technology and streamline complicated project development steps.

While projects can be done without them, being certified to standards like UL1973 and NFPA855 makes the “mind numbing” process of going through site-level permitting, commissioning and other development stages much shorter, Invinity chief commercial officer (CCO) Matt Harper said.

Harper spoke to Energy-Storage.news at last week’s RE+ 2022 industry event in California, a few days after vanadium redox flow battery (VRFB) provider Invinity announced that its third-generation battery modules, VS3, got UL1973 certification.

UL1973 concerns the safe operation of stationary battery energy storage systems, evaluating their ability to withstand simulated abuse conditions within charge and discharge parameters specified by the manufacturer.

As such, it has become the major standard for battery storage system safety, alongside the US National Fire Protection Association (NFPA) standard NFPA855, which covers safe installation practices, UL9540, UL’s installation safety guidelines and UL9540A, the famous test to induce thermal runaway and assess likelihood of fire spreading, or propagating, from one cell to others.

Unlike lithium-ion batteries which store energy inside the cells, VRFBs store energy in tanks of liquid electrolyte separately to the cell stack. They do not go into thermal runaway, which means it might be assumed going through safety tests would be relatively easy for a flow battery provider to pass through.

“They are fairly easy to get through, but it doesn’t mean that the tests themselves don’t have this massive amount of stuff wrapped around them,” Harper said.

While UL9540 and specifically UL9540A focus directly on fire safety, UL1973 is a “much broader” standard, and required the Invinity team to spend a lot of time preparing for a test that examines “every aspect of battery safety”.

In some ways, therefore the company benefitted from its tech having certain key differences to lithium-ion, but also meant various aspects of the technology needed to be explained to testers less familiar with the flow battery technology.

In other words, a lot of the work behind getting the certification “is less standard than what gets done by a lot of the other battery companies out there,” Harper said.

“But it allows us to really sort of emphasise some of the unique advantages of the technology, especially around fire safety.”

Having the right certifications is important for bankability, making it much easier for developers to get project financing and therefore playing a vital role in their decision-making process on selecting technologies and technology providers.

According to Matt Harper though, certifications matter from end-to-end throughout the whole development process.

“Even before you get to questions of bankability, if you’re trying to install a battery in the grid that doesn’t have those kinds of certifications, you could do it and we’ve done it, but it’s just a mind-numbing process. It takes a lot longer to go through the site-level permitting, go through the commissioning process, to get everything signed off.

“Whereas if you’ve got, UL1973 or UL9540 certification, then the local electrical inspector is going to look at and say, ‘Ok, you’ve met that, you’ve met the national standard, just go ahead’.”

Important proof point for bankability

To think about the broader question of bankability, providers need to be able to show customers their technology will do what it’s claimed it can do over the lifetime of the project. For companies working in a less mature technology like VRFBs, as opposed to lithium-ion batteries, there is no “magic bullet” that will make a system bankable.

However, alongside third-party verifications of system performance or of various aspects of system performance, safety standards and certifications “start to build a case” for bankability.

Battery storage system integrator and technology provider Fluence, which does typically work with lithium-ion battery chemistries, recently announced results of its UL9540A burn tests, as reported by Energy-Storage.news a few days ago.

Also speaking to the site at RE+ last week, Fluence’s VP of growth and head of commercial Kiran Kumaraswamy also pointed out the different ways in which testing, standards and certification matter.

Being able to point to verified test results helps build confidence for the industry around “many aspects of the technology,” Kumaraswamy said.

“From a financing perspective, from an insurance perspective, from so many dimensions, it proves conclusively what the technology can do for you, in a safe manner and I would also say in a highly differentiated manner against competition and deliver the benefits for the customers.”

Recent updates have been made to UL1973. This week, we will be learning about those and holding a discussion about various aspects of the standard from experts at CSA Group, which carries out tests and helps industry stakeholders to understand the process.

Our webinar with CSA Group will take place live on Thursday 29 September and you can sign up to attend free of charge (no pun intended) here.

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Energy Dome’s CO2 Battery facility. Image: Energy Dome.

Danish energy company Ørsted will run a feasibility study on the deployment of a 20MW/200MWh energy storage system using Italian startup Energy Dome’s ‘CO2 Battery’ technology.

The two companies announced a memorandum of understanding (MOU) today, signalling the start of a partnership that Energy Dome said aims to use long-duration energy storage to provide baseload renewable energy to Ørsted’s end-use customers.

Ørsted, which is majority owned by the Danish state, is a primarily renewable energy company with the world’s largest portfolio of offshore wind power. It has made small forays into energy storage including a 20MW system that went online in the UK three years ago.

The first project, a ten-hour system, would be built in continental Europe with construction to commence in the second half of 2024. The MOU includes the possibility of deploying systems at multiple Ørsted sites.

Kieran White, VP Europe Onshore at Ørsted, said: “We consider the CO2 Battery solution to be a really promising alternative for long-duration energy storage. This technology could potentially help us decarbonise electrical grids by making renewable energy dispatchable.”

Energy Dome’s solution, pictured above, uses a thermodynamic cycle to store and dispatch energy with a duration between four and 24 hours. It charges by drawing carbon dioxide from a large atmospheric gasholder and storing it under pressure, and dispatches by evaporating and expanding the gas into a turbine to generate electricity and return it back to the gasholder.

Its 2.5MW/4MWh demonstrator project in Sardinia, Italy, went online in June this year as reported by Energy-Storage.news, which was followed a few weeks later by US$11 million in bridge financing between a Series A and Series B, expected later this year.

Milan-based Energy Dome is also bringing a larger, 20MW/100MWh project to fruition in partnership with utility A2A, using money from its Series A.

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The 300MW/450MWh Victorian Big Battery, Australia’s largest BESS project to date. Image: Victoria State government.

Victoria, Australia, will target the deployment of 6.3GW of renewable energy storage by 2035, one of the most ambitious policy goals set by a state or national government anywhere in the world.  

State Premier Daniel Andrews and energy minister Lily D’Ambrosio announced the target yesterday, describing it as a measure that will lower power prices, create employment and enable increased uptake of renewable energy in their state.

Offering a reaction to Energy-Storage.news, energy economics expert Dr Bruce Mountain of the Victoria Energy Policy Centre (VEPC) thinktank called it “an excellent and significant step in the right direction”.

“Though the details of delivery have not yet been worked out, its establishes a solid foundation. It signifies the Government’s recognition of the importance of storage to the energy transition and will surely boost investor and consumer confidence,” Mountain told Energy-Storage.news.

It comes off the back of the Climate Change strategy introduced by the pair’s Labor Party. That targets 50% of Victoria’s electricity coming from renewable energy by 2030, in a state that currently relies on coal for about 60% of its power.

The energy sector made up about 70% of Victoria’s emissions in 2019, with transport accounting for about a quarter. Labor has set a policy target for net zero emissions from the state by 2050 and is working towards that goal in four-year blocks. In 2020, it exceeded its target to reduce emissions 15% – 20% from 2005 levels, getting closer to 30%.

The government sees energy storage as critical to enabling climate, energy security and economic goals, including large-scale battery energy storage system (BESS) projects and distributed battery storage with rooftop solar PV at peoples’ homes and businesses.

Victoria’s new target is greater than New York’s, which is 6GW by 2030 – currently the highest target in the US, the world’s leader in battery storage growth – albeit Victoria does have an extra five years to deliver.

The Andrews government has also set an interim target of 2.6GW by 2030. The target includes eight hour-plus long-duration energy storage (LDES) as well as shorter duration.

“Victoria is already the renewable energy capital of Australia, and now, we’ll have the biggest energy storage targets in the country too,” Andrews said yesterday.

“We’ve cut emissions by more than any other state, tripled the amount of renewable energy and created thousands of jobs. We’re not just talking about climate action – we’re getting on with it.”

Energy minister D’Ambrosio meanwhile noted that the targets will create “up to 12,700 jobs” in the state, but more importantly will save families money on their energy bills and “slash our state’s emissions for generations to come”.

The target was announced alongside a AU$157 million (US$101.77 million) support package for renewables and storage projects in the state.

That included AU$119 million for a 125MW battery storage and advanced inverter project in one of Victoria’s planned Renewable Energy Zones (REZ) and AU$7 million funding for another 100MW battery storage and advanced inverter project at an earlier stage of development.

Victoria is already home to Australia’s largest BESS to date, the 300MW/450MWh Victorian Big Battery, which went into action at the beginning of this year.

Expert view: Dr Bruce Mountain, Victoria Energy Policy Centre

In June, Energy-Storage.news spoke with Mountain about VEPC’s proposal for the introduction of a national electricity storage target policy.

That was shortly after Australia’s Prime Minister Anthony Albanese, then newly elected after running on a platform that included climate action, pledged the creation of a AU$20 billion programme to enable the country’s grid network to transition to renewables.

VEPC said at the time that an electricity storage target would be a wise and targeted use of Albanese’s billions in funding for what the Prime Minister’s national Labor Party had dubbed the ‘Rewiring the Nation Corporation’. Today, we asked Bruce Mountain for some views on Victoria’s state target.

What’s your immediate reaction to the setting of the target?

BM: This is an excellent and significant step in the right direction. Though the details of delivery have not yet been worked out, it establishes a solid foundation. It signifies the Government’s recognition of the importance of storage to the energy transition and will surely boost investor and consumer confidence.

Are the 2035 target and the interim 2030 target set at appropriate benchmarks?

BM: The target signals an implied complete decarbonisation by 2035. I would imagine 6.3GW, and assuming weighted-average storage duration of around 5 hours (around 18GWh), should be sufficient to ensure reliable supply in Victoria with a completely decarbonised system dominated by variable renewable supply. I would not be surprised if the 2030 target is expanded in due course.

Are the right mechanisms and funding in place for the targets to be achieved?

BM: At this stage the target might be described as an insurance mechanism. I think it will almost certainly develop in time into a proactively managed programme. What has been announced is a solid platform that will facilitate the development of such a programme.

Which are best for Australia: state-by-state storage targets, national targets, or both?

BM: The electricity system is decentralising in response to technology change, administrative capacity in government, and in Australia also constitutional power i.e., electricity supply is the responsibility of the States.

The States are getting ever more actively involved in the key parts of the energy transition. Victoria took the lead, but other States are actively following suit.

The Commonwealth has an important role to play in facilitating co-ordination and in supporting the States including through policies to improve the financial attractiveness of storage. The States are leading, but there is increasing awareness by the Commonwealth of the magnitude of its renewable electricity targets (82% by 2030) and I hope that this will translate into storage policies that support the lead taken by Victoria, and of the other States that follow in its wake.

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Boviet Solar’s Vega Series

Boviet Solar Technology Co. Ltd., a global solar energy technology company specializing in manufacturing of PERC PV cells, Gamma Series Monofacial and Vega Series Bifacial PV Modules, has entered into agreement with Vesper Energy, a developer of utility scale renewable energy projects with a 12 GW pipeline of solar and storage projects in North America.

The PV Module master supply agreement will utilize Boviet Solar’s Vega Series BVM7612M 545-555-H-HC-BF-DG and BVM7612M 545-550-H-HC-BF-DG Mono-Bifacial PERC Double glass PV modules for Vesper Energy projects located in Texas and Ohio totaling 680 MW AC.

“The mission of Vesper Energy is to help our customers transition to sustainable, secure, clean energy,” says Craig Carson, president and CEO. “This partnership between Vesper Energy and Boviet Solar will do just that and allow us to enhance the local communities where we work. The partnership is aligned with our goal to create a carbon-free energy future. Vesper Energy is confident in Boviet Solar as a major PV module supplier, and we are proud to enter into an agreement to service more 680 MWAC of our near-term portfolio.”

“We are honored to be awarded this large PV module supply agreement by Vesper Energy,” says Jimmy Xie, Boviet Solar’s general manager. “It is another significant milestone for Boviet Solar’s achievements in the U.S.A market, where we see the demand for solar energy continue to increase. We thank Vesper Energy for their trust in our organizations and our PV modules.”

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The Baker-Polito administration is releasing $3.6 million in Minority- and Women-Owned Business Enterprises Support Implementation and Planning Grants and Equity Workforce Training Grants to support 25 organizations committed to expanding access to career and business opportunities in climate-critical fields.

The awards, provided through the Massachusetts Clean Energy Center (MassCEC), will address the need to grow Massachusetts’ clean energy workforce as well as prioritize diversity, equity and inclusion efforts.

“It is critical that we foster a vibrant, clean energy sector that will enable the Commonwealth to confront the many challenges associated with climate change and secure a clean energy future that will greatly benefit the state for many generations to come,” states Gov. Charlie Baker. “These grants will further support our ongoing efforts to strengthen the industry, which includes creating opportunities that provide a clear entry into a variety of clean energy fields to ensure a diverse and talented workforce is developed.”

“Equitable growth of the clean energy industry not only ensures the sector’s sustainability but also provides important benefits of generating a strong workforce within the sector, providing economic benefits within our communities and regions throughout the state,” says Lt. Gov. Karyn Polito. “Our administration is proud to partner with these incredible organizations to expand access within clean energy as we work together to mitigate the impacts of climate change.”

Equity Workforce Training Grants have been awarded to 16 organizations for designing programs to prepare members of environmental justice (EJ) communities and fossil fuel workers for clean energy careers. Each $50,000 grant will reduce barriers faced by underserved individuals as grantees conduct research, develop partnerships and design the frameworks to create new job training pipelines to high-quality career pathways.

Additionally, Minority- and Women-Owned Business Enterprises Support Implementation and Planning Grants were awarded to nine Massachusetts community-based organizations to advance efforts to assist over 199 Minority- and Women-Owned Business Enterprises (MWBE). MWBE support grants will facilitate the exploration, development and implementation of innovative training opportunities for Massachusetts-based MWBE companies. The grants of up to $1 million each will support MWBE entry, creation and expansion into fields critical to meeting net-zero goals. Funding for both programs was provided by MassCEC’s Workforce Equity programming, which was created following the enactment of the 2021 Climate Roadmap Act.

“It is crucial that Massachusetts continues to develop a qualified, well-trained, and diverse workforce within the clean energy sector that is able to both expand the industry and directly contribute to its continued success,” adds Energy and Environmental Affairs Secretary Beth Card. “The Baker-Polito Administration actively seeks partnerships so that we can work together to achieve our shared clean energy and decarbonization goals, and these Equity Workforce Training and Minority- and Women-Owned Business Enterprises Support Implementation and Planning Grants are an important contribution to that effort.”

The nine MWBE support organizations are receiving $2.8 million to develop statewide programming, as well as location-specific support in communities. Similarly, the 16 Equity Workforce Planning grant awards will support statewide training and more targeted locations throughout the Commonwealth, including specific EJ communities. The equity workforce planning grantees will focus on developing holistic workforce programs that provide technical training paired with placement opportunities and extensive support services.

“The Baker-Polito Administration is proud to announce these Equity Workforce Training and MWBE grants, which supports focused, targeted programming to the communities they serve,” comments Jennifer Daloisio, MassCEC’s CEO. “These grants reflect MassCEC’s commitment to both growing the clean energy economy and increasing diversity, equity, and inclusion in the sector. Importantly, these awardees have created exceptional plans and we can’t wait to see their programs thrive.”

Browning the Green Space (BGS) is receiving $508,500 to support 50 MWBEs. BGS will create more MWBEs by expanding the Accelerating Contractors of Color in Energy for Sustainable Success (ACCESS) program. ACCESS is an eight-week contractor boot camp for aspiring energy efficiency and renewable energy business owners that provides curated consulting, coaching, connections, mentorship, and access to capital.

Greentown Labs is gaining up to $500,000 to support 18 MWBEs. Greentown Labs will operate the accelerator program, Advancing Climatetech and Clean Energy Leaders (ACCEL), to accelerate high-growth, tech innovation-based MWBE startups towards investment, partnerships and customers.

Greater New England Minority Supplier Development Council (GNEMSDC) is receiving up to $500,000 to support 75 MWBEs. GNEMSDC will help MWBEs become aware of opportunities to obtain contracts in climate critical areas, build their financial and intellectual capital, and provide MWBE certifications, leveraging grants from the U.S. Department of Commerce.

GreenRoots Chelsea is getting $50,000 to explore training a wide range of people of color, workers in the fossil fuel industry, and youth from Chelsea and East Boston to enter the clean energy sector locally in careers related to solar energy and microgrids.

Sustainable Business Network of Massachusetts (SBN) is developing the SBN Solar Business Accelerator with $50,000 to support the creation of new workforce programs to grow the solar industry. SBN will focus on jobs beyond electrical engineers and electricians, such as sales and marketing, information technology, drone operation, community engagement ambassadors, and vegetation management.

Read about additional organizations that received funding here.

Image: Nuno Marques on Unsplash

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The co-located solar and storage project in Malawi. Image: JCM Power.

The US’ International Development Corporation (DFC) has provided a US$25 million loan for a solar-plus-storage project in Malawi with a 5MW/10MWh battery energy storage system (BESS).

The government-owned development finance institution’s CEO Scott Nathan signed the commitment letter last week (21 September) to provide the funding for the project which went online in in May.

The Golomoti Solar project pairs a 28.5MWp solar photovoltaic power plant and 5MW/10MWh BESS in southeast Malawi, although announcements describe it as a 20MW project.

The DFC’s loan comes two months after the World Bank announced it would provide guarantees for equity and shareholder loan investments into the project amounting to US$24 million.

CEO Nathan commented: “DFC’s US$25 million investment in Golomoti Solar will support a new solar energy plant in Malawi, delivering electricity to the national power grid to directly benefit Malawian businesses and communities. The Golomoti plant also includes Malawi’s first battery energy storage system, creating a reliable energy source that will promote economic stability for the country’s future development.”

JCM Power and InfraCo Africa co-developed Golomoti Solar. It is JCM Power’s second renewable energy project in Malawi, after the 60MW Salima Solar project entered commercial operation in October 2021.

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Powin’s stand at RE+ 2022. Image: Andy Colthorpe / Solar Media

Power conversion system (PCS) expertise allows battery storage system integrators an important degree of control over project design and costs, according to representatives of Powin Energy and LS Energy Solutions.

Powin has just acquired Spanish inverter and energy management system (EMS)/power plant controller maker EKS Energy to add capabilities in-house.

Meanwhile, LS Energy Solutions is a system integrator that began in the market as a power electronics player. The company launched after South Korean conglomerate LS Group acquired the grid-tied business of Parker-Hannifin in 2018, putting its first ‘all-in-one’ energy storage products onto the market in late 2020 and announcing its first US deployments a few months later.

The value and importance of PCS has been highlighted in recent weeks by the acquisition of two other US manufacturers: EPC Power was acquired by investors Goldman Sachs and Cleanhill Partners, while Dynapower was bought by industrial sensor manufacturer Sensata for US$580 million.

Energy-Storage.news spoke with Powin’s senior VP Danny Lu and LS Energy Solutions director of strategy and market analytics Ravi Manghani at last week’s RE+ 2022 solar PV and energy storage tradeshow in Anaheim, California.

Both said that while power electronics equipment represents only a small portion of a battery project’s overall cost, it’s often responsible for many of the issues which arise in operation. At the same time, owning their own PCS company means their companies can circumvent some of the supply chain issues around getting third party equipment onsite on time, they said.

To date, Powin has procured PCS equipment from “almost all of the Tier 1 suppliers in the energy storage space,” Danny Lu said.

“What we’ve experienced is that, when you’re dependent on third parties to do critical aspects of the system, you expect them to perform, be responsible for their scope, deliver everything on time, commission everything on time, and get it to the point where we can reliably operate the system.”

Powin realised that although the PCS might only represent 15% of a project’s total cost at most – and usually less than that – it can cause almost all of the issues that can happen during operation. The company is therefore “holding a lot of risk” by depending on third parties for such a critical aspect of its systems.

PCS: ‘Small portion of the cost, but a big portion of the headache’

Therefore, a major part of the rationale for acquiring Seville-headquartered EKS, considered a pioneer in the fields of renewable energy inverters, is that it will give Powin more control over project execution, delivery and commissioning.

Many of the Oregon battery energy storage system (BESS) manufacturer’s projects also have availability guarantees and the acquisition will further bolster its ability to deliver on long-term service agreements around those too, Lu said.

“For the portion of a system that makes up such a small cost, but makes up a large portion of the headache, we need to be able to control that service strategy and the service capability.”

LS Energy Solutions’ (LS ES) Ravi Manghani is a former head of industry research for what was GTM Research (now part of Wood Mackenzie Power & Renewables). He noted that inverters are probably more complex than batteries and sit at the heart of a system and in many ways dictates what a BESS can do.

There is a “lot more IP that goes into power electronics than people realise,” Manghani said, but it still only forms a small portion of the cost stack of a complete system. As a PCS provider itself, LS ES was providing hardware critical to the success of a project but only reaping that small portion of the financial benefit.

Coming from more than a decade and a half of experience making and testing inverters then seeing them operate in the field also means the company is well positioned to be able to integrate PCS and batteries together into an “optimised product that is capable of providing different use cases, with the help of the relevant software, EMS, battery management system (BMS) etc,” Manghani said.

“Coming from the power electronics side gives us a much more sort of hands-on understanding of how to interface with the grid and what kind of signals that we can use and how to provide microgrid capabilities, for instance, using the grid forming features that our inverter has.”

One of the main topics of discussion at last week’s RE+ event was battery storage supply chain constraints. While those are often talked about in terms of battery cell procurement – certainly the most impacted area – supply chain disruptions are present across other components too, including PCS.  

For both LS Energy Solution and Powin, having more control over that aspect of project delivery will help them to manage project timelines and ultimately add to customer satisfaction, Manghani and Lu both said.

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Ricardo Díaz

Enfinity Global has signed a definitive agreement with Capital Dynamics (advised by Barclays) to acquire a 400 MW utility-scale solar portfolio in the U.S., consisting of 28 operational solar power plants in California, North Carolina and Idaho. The portfolio reached COD within the last five years and holds long-term power purchase agreements (PPA) with utility off-takers.

“Our long-term ownership business model allows us to partner with relevant investors, stakeholders and customers, aligning capabilities that create a zero-carbon future,” says Carlos Domenech, CEO of Enfinity Global. “Our ability to deploy operational expertise across the entire renewables value chain, coupled with our international presence, translates into value creation for our investors and customers.”

“This transaction represents a unique opportunity to acquire a high-quality, geographically diversified portfolio of operating assets. We believe the U.S. market will continue to consolidate, allowing long-term asset owners to grow rapidly and benefit from efficiencies,” comments Ricardo Diaz, CEO of the Americas at Enfinity Global. “We will continue to pursue further investment opportunities in the U.S. with top-tier partners.”

“Our purpose is to create a fully integrated platform with a complete suite of in-house development, financing, construction, operations and asset management capabilities. To this end I am happy to see that top talent shares our vision and culture and are joining us,” adds Diaz.

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The cavern project in Sweden. Image: SSAB.

Swedish state-owned energy company Vattenfall has commissioned a green hydrogen storage pilot facility within a 100GWh capacity cavern.

The HYBRIT facility in Luleå, north Sweden, is a collaboration between Vattenfall, steel company SSAB and iron ore producer LKAB.

It was inaugurated in June and, following initial pressure tests, has now been filled with hydrogen gas up to a maximum operating pressure of 250 bar. A two-year test period has now started and will continue until 2024.

The technology will eventually go towards SSAB sponge iron production operations, but the announcement’s wording indicates the next two years is mainly just testing the hydrogen storage capabilities. Sponge iron is produced by reducing iron ore into iron using a reducing gas or elemental carbon, and is used in the production of steel.

The technology will be used on an industrial-scale for sponge iron production at SSAB’s facility in Gällivare, a few hours north of Luleå, within the next four years, Vattenfall said.

The pilot facility is 100 cubic metres in size and could be expanded to 100,000 to 120,000 cubic metres. This would equate to 100GWh of energy storage in green hydrogen form, which a press release said was enough to supply a full-size sponge iron factory for three to four days.

Lars Ydreskog, director of strategic projects at LKAB, said: “Hydrogen gas and its storage are central to our transition. In just four years, HYBRIT technology will be used for the production of fossil-free sponge iron on a large scale at a first demonstration facility in Gällivare. LKAB will become one of Europe’s biggest hydrogen producers, and this pilot project will provide valuable knowledge for the continuing work on creating the world’s first fossil-free value chain for the iron and steel industry.”

Vattenfall said the pilot facility in Luleå is the first in the world to test the technology with repeated filling and emptying of hydrogen gas.

Other large cavern facilities for storing green hydrogen which are in development include ACES Delta in Utah, US, and the HyStock project in the Netherlands. ACES has a total storage capacity of 300GWh and is expected to come online in stages starting in 2025, while the 26 million kg-capacity HyStock is expected online the following year. ACES will supply gas to a combined cycle power plant while HyStock’s developers have been vague on its use cases.

The main use case for green hydrogen technology at scale is as a feedstock for various industrial processes to help them decarbonise, followed by replacing fossil fuel in transportation and the finally blending with natural gas for conventional gas power plants.

Storing green hydrogen for conversion back to electricity – power-to-X-to-power – has a round-trip efficiency too low to be economical for now, most industry observers say.

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EnerVenue’s energy storage system solution. Image: EnerVenue.

Metal-hydrogen battery startup EnerVenue has signed a master supply agreement (MSA) with Green Energy Renewable Solutions for 250MWh of its technology over the next three years.

The deal will see EnerVenue deliver 50MWh of its product to Green Energy in 2023, 100MWh in 2024, and 100MWh in 2025.

Green Energy shares common ownership with Sweden-based aluminium and steel structure manufacturing company Nicon Industries, and will package the battery vessels into building blocks for applications across Nicon’s portfolio. Nicon is active in the wind, offshore and maritime industries.

Through Green Energy, Nicon aims to build 1GW of energy storage projects within the three years of the initial EnerVenue agreement.

Nicon has not revealed its supplier or technology of choice for the remaining capacity, with EnerVenue’s battery tech’s 2-12 hours of duration implying the 250MWh deal amounts to only 20MW-125MW of power. If that 250MWh order covers the 1GW pipeline, it means Nicon is procuring the systems at just 15 minutes’ duration.

Henrik Jensen, CEO, Nicon Industries A/S said: “EnerVenue’s technology features exceptional longevity and durability with minimal maintenance required, and its fire-safe properties are especially critical in our expected applications. EnerVenue’s transformational technology will help Green Energy Renewable Solutions provide superior value to our global customer base.”

Energy storage systems deployed in the offshore and maritime market must meet particularly strict DNV certification, which assesses the reliability of components and systems in the face of marine hazards, and CE certification. The zero fire propagation risk is especially crucial in offshore locations such as oil rigs.

Jens Juul, COO at Green Energy, added: “By 2024, Nico’s forklifts will be converted from fossil fuel to electric power and will be charged with Green Energy battery containers. Additionally, the power needed for our sea fastenings jobs on wind installation vessels will be supplied from our own battery containers charged overnight with renewable energy coming from the windfarms.”

“Green Energy’s maritime and offshore renewable energy applications offer use cases where the safety, flexibility, and maintenance-free durability of our battery vessels deliver compelling business opportunities and competitive differentiators,” said Randy Selesky, chief revenue officer, EnerVenue.

EnerVenue’s CEO Jorg Heinemann positioned its nickel-hydrogen batteries as a simpler, safer and more versatile alternative to lithium-ion in a recent interview with Energy-Storage.news. The technology the company is aiming to commercialise at scale was originally developed for use in space.

The company raised US$100 million in investment one year ago to achieve that, which was followed by supply memorandum of understandings (MOU) with developers in Puerto Rico and mainland US. By July this year, the company claimed to have 5GWh of customer orders. It has a production line in Fremont, California.

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