POWERING THE SMART GRID
Issue 42: Winter 2023/2024
The intriguing world of hybrids A mix-and-match path to battery joys Time to do your sums! EU-China subsidy spat Leadership alert Collision course ahead as The economics of EVs European Commission to are flawed, what the wider implications mean investigate unfair claims
New top-level execs at Freyr, Leoch, BMZ, Clarios, EnerSys
www.energystoragejournal.com
No Steam Curing Required. Accelerate TTBLS Crystal Growth with Less Time and Energy Use Improve your product AND your bottom line. Treated SureCure is a fundamentally better way to create TTBLS crystals, with more uniformity and more efficiency in, both, time and energy use, compared to steam curing and other methods. Battery manufacturing and performance will benefit from tested and proven enhancements like stronger plates, more-consistent curing, increased cycle life, and improved charge acceptance — all while providing verifiable savings.
INDUSTRY NEWS full-scale operations of its North Hammond Bolsters With American Treated SureCure® manufacturing line underway, Hammond Asian Production Group announced increased production Capacity With New capacity at its Malaysian plant. The facility in Kuala Lumpur is capable of Treated SureCure® making just over 4.1 million pounds of production online in the US in early Treated SureCure® per year. Demand In addition to SureCure prodManufacturing Line for one of its most effective additives 2023. ucts, Hammond Malaysia produces
Energy Storage needs. The plant is ISO:9001 Certified and allows for quick turnaround on orders to customers Advanced Negative Expanders tailored throughout Asia. Read more at to assist with SLI, Deep-Cycle, PSoC and HammondGlobal.com/news. ®
had risen to such a degree that the company doubled capacity by bringing
INFO@HAMMONDGLOBAL.COM
HAMMONDGLOBAL.COM
Contents CONTENTS
Energy Storage Journal | Issue 42 | Winter 2023/2024
UNFEASIBLE ECONOMIC MODELLING
THE INTRIGUING WQRLD OF HYBRIDS
9
28
TIME TO DO THE MATHS! VON DE LEYEN SPEAKS FORTH The economics of the resale value ofAsian BatteryThe EU has formally opened a formal Conference, Cambodia 2023 EVs are flawed — most of us know it investigation into Chinese subsidies already given the eight-year warranty for EVs amid fears that Beijing was on the battery — so what are the distorting markets and steering implications for grid storage? Europe's energy transition off course
MIX-AND-MATCH CHEMISTRIES You can't flaw theSeptember logic.7,Take 2023 the strong points of one battery chemistry and mix it with the strengths of another, then suddently one plus one equals three!
17
Former Microsoft exec Birger Steen becomes new Freyr CEO in leadership shake-up
Gigafactories galore as yet new Ray Kubis reflects on what the The Battery Show ploughs on to investments and projects are to drivers and direction will be for yet greater success at this year's is a the briefworld from Bloombergfuture profiling is important to recognize though be deployed This across batteryIttransportation expothat in Novi, Michigan
IN THIS ISSUE
43
38
the huge demand for metals for lithium batteries through to 2030, which is 17 million tons of mostly mined materials. Surely there will be some supply and
just like with oil, the reserves of these metals will be recovered with notably different costs depending on the location, geology, royalties and other factors.
2 EDITORIAL: The dilemma of the replacement battery | 4 PEOPLE demand variations in the shortNEWS term, yet| Top appointments galore: Chiang appointed Lecoh CEO, it appears there are sufficient materials
ALSO IN THIS ISSUE
6
FEATURES
2
EU-CHINA: WHEN TITANS COLLIDE
Soule quits Ecobat and O'Connell to step up at EnerSys | 9and NEWS | 28 ofCOVER STORY: THE JOYS OF HYBRIDS Where lead and in the ground at the bottom the
Pacific Ocean, as some are targeting to lithium can work together (and other chemistry mixes too!) | 38 VIEWPOINT | Ray Kubis on the transportation sector's future direction collect.
43 EVENT REVIEW: The Battery Show and Electric & Hybrid Vehicle Technology Expo 2023 | 45 UPCOMING EVENTS: ESJ details the conferences and shows ahead
Editor: Michael Halls | email:mike@energystoragejournal.com | tel: +44 7977 016918 Digital editor: John Shepherd | email:john@energystoragejournal.com | tel: +44 7470 046 601
Energy Storage Journal — business and market strategies for energy storage and smart grid technologies Publisher: Karen Hampton karen@energystoragejournal.com +44 7792 852 337 Editor-in-chief: Michael Halls mike@energystoragejournal.com +44 7977 016 918
Finance: Juanita Anderson | email: juanita@batteriesinternational.com | tel: +44 7775 710 290 Subscriptions admin: admin@energystoragejournal.com | tel: +44 1 243 782 275 Ray Kubis, Chair, Gridtentialand Energy, Inc.
9
Design: Antony Parselle | email: aparselledesign@me.com The contents of this publication are protected by copyright. No unauthorized translation or reproduction is permitted. Every effort has been made to ensure that all the information in this publication is correct, the publisher will accept no responsibility for any errors, or opinion expressed, or omissions, for any loss or damage, cosequential or otherwise, suffered as a result of any material published. Any warranty to the correctness and actuality of this publication cannot be assumed. © 2023 HHA Limited. UK company no: 09123491
Let cool heads prevail
The lead-lithium storage debate steps up a notch The new titan of lead The CEO interview
Next gen integrators
on, head-to-head
the ideal middle man
Coming soon to a Ecoult’s UltraBattery, Anil Srivastava and www.energystoragejournal.com smart grid near you, ready to take lithium Leclanché’s bid for market dominance
Energy Storage Journal • Winter 2023/2024 • 1
ABOUT US
Advertising manager: Jade Beevor | email: jade@energystoragejournal.com | tel: +44 1 243 792 467
CONTENTS EDITORIAL Mike Halls • editor@energystoragejournal.com
The dilemma of the replacement battery Caveat Emptor! Buyer beware! That’s as true now as when the ancient Romans first coined the Latin phrase. But first a personal case study from the early 2000s. The warranty on the electrics of my new Fiat Multipla ran out after two years. Almost exactly a week after the expiry my electrics went wrong. I went to a garage to fix them. That’s life. And, to be frank, it was expensive — it was a garage after all — but not hugely so. But things get much more complicated, and much more expensive, when things go wrong with the battery powering your EV. As the image, courtesy of visualcapitalist.com shows, an EV battery costs approximately 16% to 31% of the value of the car. Given that the typical warranty on the battery of an EV expires after eight years or 100,000 miles (whichever is first) one should expect that, once the warranty date has been breached, the owner is going to have to be prepared to fork out for a new battery — after all, no battery equals no car. The trouble is that as the EV battery nears the end of its warranty period, the value of the car — and the typical cost of the replacement — start to 2 • Energy Storage Journal • Winter 2023/2024
www.energystoragejournal.com
CONTENTS EDITORIAL make the logic of buying the EV in the first place just a little ridiculous. The reality is that, for the moment, depreciation of EVs is something that the secondhand car market hasn’t come to grips with. Or not yet it seems. Here’s one example. The so-called “breakthrough” Chevrolet Bolt — it had a range of 240 miles on one charge — retailed in 2017 at a basic entry level of $36,000. To buy a second-hand Bolt in October 2023 from a US dealership, you’d expect to pay around $17,000. That’s about average for a six-year old car and, for some strange reason, EVs hold their value slightly better than ICE vehicles. But is this a realistic secondhand price, because in two years’ time a new battery may need to be fitted? So what is the cost of replacing it? The price of an uncomplicated battery replacement, including parts and labour, is currently around $18,500. That’s more than the value of the car as it stands. And, here’s the rub. A new — and far better — Chevrolet Bolt is now retailing at $27,500. This should send a warning shiver down the spines of prospective EV buyers. Unfortunately, this message isn’t getting through at all. Motoring journalists are keen to talk about exciting advances in electric cars rather than the prosaic, and more complicated, story of second-hand values. www.energystoragejournal.com
From the moment the EV nears the end of its warranty period the present value of the car and the value of any replacement battery start to look ridiculous Politicians have an agenda to promote, stories about why EV sales aren’t all positive are simply an inconvenient truth. In a world that is starting to wake up to the threat of climate change, for them, green credentials are positive for their image. At the same time, a positive story about EVs and decarbonization will help the political push to achieve enforcement of arbitrary draconic measures — complete with arbitrarily set dates — to end sales of ICE vehicles. The OEMs are equally inevitably caught up in this deceit too.
As soon as the EV transition comes into effect, for the first time in history the second-hand value of cars will go up rather than down Oddly enough they are ambivalent about this. Car manufacturing representatives have told Energy Storage Journal on many occasions — and totally off-the-record — that though they want to sell as many of their EVs that they can, they also hate the fact that governmental interference that has forced them from selling profitable brands to marketing largely unprofitable EVs. One recent estimate reckoned that Ford had lost $72,762 for every EV it sold in Q2 of
this year. But thank heavens for the IRA and government subsidies! There’s a difficult line in balancing budgets too. The automotive business has, according to some estimates, budgeted at least half-a-trillion dollars — $500,000,000,000 — in the next six years into bringing EVs to a general public that are more concerned about price than the environment. At a time when most people on medium-sized incomes are squeezed for cash — they have to pay more for, say a family car, than before and its performance won’t be so good as its ICE price equivalent. There’s one final twist to the dilemma of the replacement battery. Irrespective of whether there is truth in claims that China has been subsidizing its EV sales, a wave of cheaper cars is poised to come to market. One recent estimate reckoned that there would be close to 700 different models available by 2030. There is also one utterly unintended consequence of our transition to EVs. Automakers the world over are trying to cut costs with the car to compensate for the high price of the battery. This means that the last generation of ICE vehicles are probably going to be of a better standard than their EV priced counterparts. And for the first time in history the second-hand value of cars will go up rather than down. Energy Storage Journal • Winter 2023/2024 • 3
PEOPLE NEWS
Ecobat in hunt for new CCO as Thea Soule departs Ecobat chief commercial officer Thea Soule left the company in August, Energy Storage Journal has learned. Soule, who joined Ecobat in 2020, said on August 15 that she had recently left her post — but she did not give details. Asked whether she would remain in the battery-related world, Soule said there would be “more news to come on my next endeavour”. An Ecobat spokesperson told Energy Storage Journal: “We can confirm Thea’s departure and express our gratitude for her contributions. The search for a chief commercial officer successor is underway, and updates on the CCO appointment will follow.”
Soule was a key speaker at June’s Pb2023 International Lead Conference in Athens, where she told del-
egates that, after spending much of her career in Brazil’s agricultural industry, she had spent the last three
Masashi becomes ENTEK’s Asia Pacific sales director
Thea Soule
ECS award for Argonne Lab scientist
Senior Argonne National Laboratory scientist Shirley Meng has been honoured by The Electrochemical Society for her work on battery tech innovations. Argonne said on July 10 Meng will be presented with the ECS 2023 battery division research award in October, in recognition of her work
years learning and integrating outside-industry experience into the world of battery recycling.
on interfacial science, which has led to improved battery technologies, Meng is chief scientist at the Argonne Collaborative Center for Energy Storage Science and is a professor at the Pritzker School of Molecular Engineering at The University of Chicago. Her research focuses primarily on energy stor-
4 • Energy Storage Journal • Winter 2023/2024
age materials and systems, specifically rechargeable batteries for EVs and trucks, power sources for the internet of things and grid-scale storage integration with renewables. ECS highlighted two papers published last year by Meng in the Journal of The Electrochemical Society, one exploring the use of external mechanical pressure to regulate the growth of dendrites that form at the interfaces in batteries and lead to an electrical short. The second paper looked at the process of lithium plating and stripping in rechargeable lithium batteries. The battery division research award was established in 1958 to encourage excellence in battery and fuel cell research.
Kaneko Masashi (pictured below) has been promoted to the newly created post of director of sales Asia Pacific for ENTEK, the company announced on September 5. ENTEK said Masashi will draw on his expertise in products and market understanding of PE and AGM separators for the lead battery industry. He and his team will also support ENTEK’s expanding lithium separator business across the region. Masashi has a long history with NSG’s battery separator division, which was acquired by ENTEK in September 2021. Clint Beutelschies, VP of global sales and marketing for ENTEK, said Masashi’s leadership and market knowledge had been invaluable during the integration of the firm’s businesses.
www.energystoragejournal.com
PEOPLE NEWS
Zogby to retire from EnerSys, O’Connell named as successor
Andrew Zogby (pictured), president of energy systems global for EnerSys, is to retire on March 31 next
year, the battery maker said on September 20. Zogby will be succeeded by motive power global president Shawn O’Connell. Zogby, known to his colleagues as ‘Drew’, has spent the past 15 years at EnerSys and Alpha Technologies, which was acquired by EnerSys in 2018. He also spent 30 years in broadband, telecoms, renewable energy and tech industries. EnerSys president and CEO David Shaffer said: “Drew’s dedication, pas-
sion and commitment have played a pivotal role in the successful integration of Alpha Technologies, while managing the business through the unprecedented impacts of the Covid-19 pandemic, resulting in significant revenue growth and positioning our company as an industry leader.” O’Connell, who joined EnerSys in 2011, has held
a number of posts in the company including VP of advanced systems and VP of reserve power sales and service for the Americas. Shaffer said O’Connell’s prior experience and proven track record make him the ideal successor to build, inspire, and motivate teams. EnerSys said it is launching a search for a successor to O’Connell.
ABC’s Shaffer picks up innovation award for bipolar lead BESS
Ritzert takes over as BMZ Germany CEO Germany’s BMZ lithium battery systems group said on July 26 it had appointed Volker Ritzert as CEO of BMZ Germany, effective August 1. Ritzert will succeed Sven Bauer, BMZ’s founder and main shareholder, who becomes CEO of the entire BMZ group. Ritzert has held senior management posts with international firms including Brose, Valeo, Faurecia and Gerresheimer.
Volker Ritzert
www.energystoragejournal.com
Bauer will focus on steering the group’s global fortunes amid “exponential growth” of the business, which has a number of international subsidiaries, BMZ said. Bauer said BMZ is forming a permanent global management team as current estimates predict annual growth of 30% for the global battery market until 2030. “Our market monitoring already indicates that these estimates are still far too low,” Bauer said. In May, BMZ Germany appointed Oliver Makko as CFO and Andreas Krist as chief purchasing officer and M&A manager. Also in May Visatronic, the newly acquired electronic flat modules producer subsidiary of BMZ, said it would invest nearly €4 million ($4.3 million) to expand production capacity.
Business leaders in the US state of Michigan have named Advanced Battery Concepts’ innovative bipolar lead BESS as their project of the year. ABC picked up the award for its BOX-BE energy storage system on September 30 from the Michigan Energy Innovation Business Council (EBIC). ABC’s CEO Ed Shaffer (right) was presented with the award at the annual Michigan Energy Innovators Gala in Detroit. The EBIC also presented a business of the year award to Our Next
Energy, which started production of its Aries LFP battery pack earlier this year. A partnership aimed at building and selling bipolar lead battery technology energy storage systems in India was announced by ABC and Exide Industries last November. The companies signed a non-binding letter of intent agreeing to “scope-out and define a program” for jointly commercializing BOX-BE systems, comprising the firm’s proprietary EverGreenSeal bipolar battery technology, for the Indian market.
Energy Storage Journal • Winter 2023/2024 • 5
PEOPLE NEWS
Former Microsoft exec Steen named CEO of Freyr Former Microsoft executive Birger Steen has been appointed CEO of Freyr Battery, as part of a leadership shake-up announced by the company on August 10. Steen, is a former worldwide VP of distribution and small-medium business at Microsoft in Seattle, VP and GM at Microsoft Russia and GM at Microsoft Norge. He chairs the boards of Nordic Semiconductor and Pagero and succeeds Freyr co-founder Tom Einar Jensen — who has been appointed executive chair of the Norway-based battery developer’s board. Both appointments, ef-
Birger Steen (left) with Tom Einar Jensen
fective August 21, follow the retirement on August 9 of founder and executive
chair Torstein Dale Sjøtveit. Sjøtveit said Freyr would
“continue to push the frontiers of innovation and apply new technologies to next-generation battery manufacturing”. Freyr plans to develop up to 43GWh of battery cell production capacity by 2025, with an ambition of up to 83GWh in total capacity by 2028. Last month, Freyr said it had been awarded €100 million ($112 million) from the European Union to support its Giga Arctic project in Norway. Last November, Freyr announced it had bought a site in the US state of Georgia to build its planned Giga America battery cells manufacturing plant.
Rataj steps down as non-exec Cabot chair Cabot’s non-executive chair Sue Rataj (above, left) is to step down effective October 1, ahead of her retirement next May, the battery materials company has announced. Rataj has been a director of Cabot since 2011 and became non-executive chair in 2018. She is also chair of the governance and nominating and executive committees — posts she will continue to hold until her retirement.
Cabot president and CEO Sean Keohane, said: “We have benefited greatly from Sue’s substantial leadership and strategic planning experience, her business acumen, and her deep knowledge of the chemicals industry and industrial manufacturing operations. We will miss her insight and leadership, and we wish her the best in her retirement.” Rataj will be succeeded by audit committee chair Michael Morrow and Frank Wilson will become audit committee chair. Wilson will also join the company’s governance and nominating committee. Meanwhile, Michelle Williams (above, right) was elected to the board of Cabot effective September 13. Williams, who also joins the board’s audit committee, was global group president of Altuglas In-
6 • Energy Storage Journal • Winter 2023/2024
ternational — a subsidiary of chemicals and materials group Arkema — until her retirement in 2021. She is also a director of
US technical equipment manufacturer the Brady Corporation, where she chairs the technology committee.
Zodl to join Clarios as CFO Clarios said on August 21 it had appointed Helmut Zodl as its new CFO effective September 1. Zodl joins Clarios from GE Healthcare where he was also CFO and led the spin-off of the company from its parent, listing GE Healthcare on the NASDAQ. A native Austrian, Zodl
is also a former group CFO for air conditioning, white goods and industrial automation firm Midea in China. Clarios president and CEO Mark Wallace said Zodl’s international expertise in the automotive industry made him an outstanding choice for his new post. Zodl succeeds John DiBert, who left Clarios in April to become CFO at Air Canada in his hometown of Montreal.
www.energystoragejournal.com
PEOPLE NEWS
Føreid moves on to Morrow Steffen Føreid has joined Norway’s Morrow Batteries as CFO as of October 9, the company has announced. Føreid was most recently interim CFO at Norwegian hydrogen power developer Gen2 Energy and is a former CFO of other companies including battery developer rival Freyr. Morrow CEO Lars Christian Bacher said Føreid’s 15 years’ CFO experience across energy and
maritime sectors — and his involvement with battery manufacturing, hydrogen and oil and gas industries — would be invaluable as the company expands its business. Morrow stands poised to tap into a number of promising opportunities, Bacher said. In July, Morrow announced it had achieved an 86% yield of battery cells production at its customer qualification in South Ko-
Ecobat promotion for sustainability champion
Ecobat has promoted Stefanie Scruggs (pictured) to chief sustainability and health, safety and environmental officer, the company said on August 1. Ecobat praised Scruggs for the critical role she has played
since joining the company last summer. From improving blood lead levels to releasing the Ecobat Sustainability Report, her leadership has pushed our organization to the forefront of sustainability and safety standards, Ecobat said. Under Scruggs’ guidance, Ecobat said it had adopted improved HSE initiatives and increased accountability for meeting safety goals. In her new role, Scruggs will continue to lead efforts that ensure our safety and sustainability practices set the gold standard for the entire industry, the company said.
BMZ appoints Jelica Ivanovska as new GM for North Macedonian production site BMZ Group announced plans on September 5 to build a new production plant in North Macedonia. Jelica Ivanovska has been appointed its general manager. BMZ said Ivanovska’s 20 years in the business management sector, includes working for companies
www.energystoragejournal.com
such as Johnson Controls, as well as experience launching greenfield operations in the North Macedonian market, mergers and acquisitions. The group said it had targeted the country for expansion because of a shortage of skilled workers in Germany and Poland.
rea just four months after opening. Morrow started test production at Chungju-si in February and had produced more than 600 prismatic cells with NMC battery chemistry as of July. On September 22, Morrow said it was raising up to €70 million ($74 million) in new capital as it moves toward commercial production. The firm’s first gigawatthour LNMO battery cells
Steffen Føreid
factory in Arendal in the south of Norway should start up early next year.
CRU appoints Nikolic to new North America VP post CRU, the research consultancy, has appointed Frank Nikolic as North America VP for base and battery metals, the company said on September 14. In this newly created post, Nikolic will have a particular focus on the energy transition and how firms should make the most of opportunities, CRU said.
Before joining the data and intelligence firm Nikolic was head of commercial operations for Vale. CRU head of base metals Simon Morris said Nikolic was joining at a critical time for the sector, as decarbonization, economic volatility and geopolitical tensions redefine the future for mined commodities.
Cabot commercial director position for Atanassova Cabot Corporation has promoted Paolina Atanassova to commercial director for EMEA battery materials. Atanassova, whose appointment was announced on LinkedIn in August, is based in Germany. She was previously senior business development manager and is a former senior technical market development manager for the battery materials group. Cabot told Energy Storage Journal in March it was opening a new lab in Germany to help boost lithium ion battery tech for EVs — but said the
firm remained committed to also supporting development of next-generation lead batteries. However, over the past two years Cabot has been noticeably absent or had a low profile at the major lead battery conferences.
Energy Storage Journal • Winter 2023/2024 • 7
PEOPLE NEWS
Kinsella to manage Manfred Gelbke new energy in Ireland appointed as 30th for Schneider Alpha-Beta member Schneider Electric said on August 22 it had appointed Darren Kinsella to the newly created post of business development manager, new energy landscapes. Kinsella, who has more than 20 years’ experience in the electrical industry, started on June 19 and reports to Mark Keogh, sales director of Schneider Electric Ireland. Schneider said Kinsella will guide the company’s customers and partners through the energy transition including the rollout of EVs in Ireland and setting up microgrid systems. Before Schneider, Kinsella was CEO of charging tech company Darkin EV. He is also VP of the Association of Electrical Contractors in Ireland and a founding member of the Electric Vehicle Charger Installers Association of Ire-
Darren Kinsella
land, which sets standards for EV chargers and infrastructure in Ireland. Since joining Schneider, Kinsella has been appointed to the board of Smart Grid Ireland, an independent network of industry stakeholders, academia, and government representatives working to promote the adoption of smart grid technologies and sustainable solutions. The Schneider group includes Indian backup power and solar tech firm Luminous Power Technologies.
Reiche to head up lithium recycling for Neometals Battery materials producer Neometals said on October 6 it had appointed Christian Reiche to lead the Australia-based firm’s lithium ion battery recycling activities. Over a 20-year career he has headed MercedesBenz’s first EV project and was responsible for Volkswagen lithium battery recycling work. Neometals’ MD Chris Reed said Reiche was a key addition to the team. “Given the nascent nature of integrated lithium ion battery recycling, there is understandably a small pool of executives with deep OEM experience in and around the
battery recycling sector.” In March, Primobius — a joint venture of Neometals and German mechanical engineering firm SMS — held a ground-breaking ceremony for an EV battery recycling factory in Germany being built with Mercedes-Benz.
Christian Reiche
8 • Energy Storage Journal • Winter 2023/2024
The Alpha-Beta Society, an informal group of scientists who have made outstanding contributions to the development of the lead acid battery industry, has appointed Manfred Gelbke as its 30th member. Gelbke, who has a doctorate in chemistry from Humboldt University, started his career in the lead battery industry in 1985. He has worked as head of R&D and in several other positions at industrial battery producer BAE in Germany up to 1999. In 2000, he moved to Akkumulatorenfabrik MOLL as head of R&D and technical customer support. He then took on responsibility for development of automotive batteries (PbCa-flooded, AGM, EFB) and battery monitoring systems. At the 14th European lead Battery Conference in 2014, on behalf of several other researchers and academics, Gelbke presented a paper entitled the Influence of the Interactions Between Carbon and Organic Expander on the Crystallization Behaviour of Lead in Lead Acid Battery Electrodes. He ‘retired’ from the industry in 2015 — when he launched a lead battery technology consultancy for Europe and Asia. Gelbke’s expertise includes the development and introduction to market of enhanced flooded batteries for micro-hybrid cars.
He has also worked on acid stratification, impedance-based battery diagnostics, interaction between carbon and organic expanders and authored, with Christian Mondoloni, the chapter Flooded starting-lighting-ignition and enhanced flooded batteries for the textbook Lead-Acid Batteries for Future Automobiles. The Alpha-Beta Society was co-founded by Ernst Voss (Varta) and David Rand (CSIRO) in 1989. The objective was for lead battery scientists to collaborate — and socialize — while grappling with the ever-emerging demands that new applications place upon the science of lead batteries. The society appoints one new member every year — last year’s appointee was Mark Stevenson. Alpha-Beta grand master Juergen Garche told Energy Storage Journal the society would formally celebrate Gelbke’s election in November.
The Alpha-Beta Society was cofounded by Ernst Voss (Varta) and David Rand (CSIRO) in 1989. www.energystoragejournal.com
NEWS
EU on collision course with China over claims of unfair subsidies The EU formally opened an investigation into Chinese subsidies for EVs on October 4, amid fears Beijing could steer Europe’s green energy transition off course. European Commission president Ursula von der Leyen pre-announced the move in her state of the union speech on September 13, accusing Beijing of “flooding global markets with cheaper Chinese electric cars” and using huge state subsidies to keep prices artificially low. “This is distorting our market. We do not accept this from the inside and do not accept this from the outside.” The Commission said it has evidence that prices of Chinese imports are subsidized and significantly lower compared to the prices of Europe’s EV industry — which could quickly face unsustainable losses if the situation goes unchecked. Von der Leyen said the EV sector was crucial for the clean economy with huge potential for Europe, which is “open for competition not for a race to the bottom”. There has also been a “recent surge in low-priced and subsidized imports of electric vehicles from China into the EU”, the Commission said. Von der Leyen said the investigation will be “thorough, fair, and fact-based” and the Chinese government could comment and give evidence. The investigation, details of which are on line, should last just over a year. The probe comes eight months after von der Lyen threatened tough action against China and other countries — such as the US and its Inflation Reduction Act — over “aggressive”
www.energystoragejournal.com
Von der Leyen — the investigation will be “thorough, fair, and fact-based”
moves to lure industrial projects including battery manufacturing away from the EU. And in June, European Commission VP and batteries czar, Maroš Šefcovic, said the bloc was monitoring “massive” Chinese and US battery industry subsidies. However, the China Chamber of Commerce to the EU expressed “strong concern and opposition” to the investigation in a statement issued on September 13 — pointing out that
Chinese EV and battery makers already have commercial partnerships with European firms in EU countries as well as China. “China enjoys a robust cooperative partnership with the European and global automotive industry networks, and the creation of each EV involves the collaborative efforts of tens of thousands of suppliers from around the world.” The Chamber said the EU’s commitment to an open market “must be translated into tangible measures” without discriminating against foreign firms. “Efforts to restrict products solely based on their country of origin would run counter to the EU’s World Trade Organization commitments.” German foreign minister Annalena Baerbock told Bloomberg TV on September 17 she supported the EU investigation, despite concerns about potential
retaliation. Baerbock said von der Lyen’s commitment to “derisk and not decouple” in terms of EU relations with China was the right approach. “If you are bound too closely (with China) you can endanger yourself,” Baerbock said. Separately, Germany’s Bundesbank warned in its latest monthly report, published on September 18, that the country should scale back its reliance on China. The bank said 29% of German companies imported essential materials and parts from China, exposing their operations to “significant” damage if this trade route were to be disrupted as a result of “increasing geopolitical tensions”. Nevertheless, the bank said German companies were already taken measures to reduce the strong focus on China when purchasing critical materials.
ENTEK to supply separators to KORE from new Indiana plant KORE Power will use lithium separators manufactured at ENTEK’s new plant under construction in Indiana, the companies announced on September 12. KORE will buy separators for both NMC and LFP battery cells produced at its Arizona KOREPlex facility. Under the terms of the agreement, which runs until at least 2031, ENTEK will supply enough separators for KOREPlex’s initial 7GWh capacity and could later double the amount. Financial terms of the deal were not disclosed.
The supply agreement followed ENTEK’s September 6 announcement that it had broken ground at the site of its $1.5 billion lithium ion battery separators production plant in Indiana. Indiana governor Eric Holcomb, Larry Keith, CEO of ENTEK and Kimberly Medford, president of ENTEK Manufacturing, were among those attending the event at Terre Haute, which marked the formal start of construction on the 1.4 million ft² plant by design-build contractor Clayco. Operations are set to start in 2025-2027.
Holcomb said the project would have a transformational impact on the region for generations to come. The plant is set to produce up to 1.4 billion m² of battery separators annually — enough to supply material for about 1.4 million EVs every year. In August, KORE announced an agreement to supply batteries for Energy Vault energy storage systems manufactured in the US. KORE will start supplying Energy Vault in 2025 after the first phase of its KOREPlex facility comes on line.
Energy Storage Journal • Winter 2023/2024 • 9
NEWS
Lead more environmentally friendly than lithium, says lifecycle assessment Lead batteries are four times better for the environment than lithium batteries. That’s the conclusion of a cradle-to-grave study — Comparative LCA of Lead and LFP Batteries for Automotive Applications — released on September 20 comparing 12V lead and lithium iron phosphate ones. The lifecycle assessment, conducted in 2021 in North America. is now available in full online. It was conducted by Sphera Solutions, according to ISO 14040/44, the international standards on lifecycle assessment. The independent report was commissioned by — but not written by — Battery Council International and the International Lead Association. Lead batteries also have a lower global warming potential (GWP) than LFPs under assumptions taken in the baseline scenario of the results of the study. GWP is the most used metric for quantifying the ability of green-
house gases to trap heat in the atmosphere. The study compared including raw material extraction and processing, inbound transport to the production facility, battery materials manufacturing, battery assembly, usage of the battery over the lifetime of the vehicle and end-oflife treatment. Small differences were noted between all batteries assessed across most categories, with lead batteries performing better in the baseline scenario due to lower burdens in manufacturing (ranging from 90% to 39% depending on the impact category). And despite the claimed weight, lifetime, and energy density advantages currently presented by LFP batteries, the study the overall environmental performance of lead and LFP batteries are roughly equivalent over the lifespan of the vehicle. The near-100% recyclability of lead batteries was also
Leoch to open Mexico battery plant in Monterrey by year end Leoch’s new battery assembly plant in Mexico will be operational by the end of this year, owner and chairman Dong Li told Energy Storage Journal on September 18. The new plant will be in Monterrey, in northeastern Mexico The Singapore-headquartered company said in March that it had selected Mexico because of its unique geographical location and “export policy advantages” for the region — such as the USMCA free trade agreement (formerly NAFTA) between the US, Canada and Mexico. Leoch is not receiving government incentives for the project.
Meanwhile, in its interim half-year results for the period up to June 30, published on September 18, Leoch said the group remains confident in future demand for its lead batteries, given that startstop batteries continue to be an “indispensable component” of most EVs in addition to other motor vehicles. But Leoch’s flagship factory in the eastern Chinese province of Anhui will focus on the production and R&D of lithium batteries and plans to gradually ramp up manufacturing capacity, the report said. Leoch’s overall revenue for the first half of this year amounted to Rmb6 billion ($823 million).
10 • Energy Storage Journal • Winter 2023/2024
a key factor in the study’s results. Additionally, the design of lead batteries, which share the same basic chemistry and have minimal components, contributes to the ease of recycling. “In contrast, today’s LFP batteries only use primary
materials, including lithium carbonate and phosphorus, as well as electronics that use precious metals (which are recovered),” the study says. Another factor is the challenge of recycling lithium battery waste — “a process that is in its infancy”.
NEWS IN BRIEF Cabot joins US energy efficiency program Cabot said on August 9 it was partnering the US Department of Energy in a national energy efficiency drive for major industrial firms. The battery materials company is joining the DOE’s voluntary ‘Better Plants’ program to boost its own plans to achieve net zero emissions by 2050. Under the program, manufacturers commit to reducing energy intensity of their operations by 25% over a 10-year period. Sunlight completes ‘smart’ Li batteries R&D program The Sunlight Group said on August 1 it had successfully completed an R&D program into developing ‘smarter and healthier’ lithium ion batteries. The R&D program, which ran from January 2021 until this summer, will help the group develop a “robust prediction model” for monitoring the state of health and state of charge of lithium batteries for electric industrial vehicles. Integrating the model to improve the battery management system for Sunlight’s products was also a program goal. Leoch outlines strategy to bolster supply chain partnerships The owner and chairman of lead and lithium battery gi-
ant Leoch has said the group can further enhance its role as a key player in the batteries supply chain. Dong Li told the group’s supply chain partner conference, held in China’s Guangdong Province, that establishing standard procurement strategies and collaborative innovation can accelerate the development of a strong and competitive world-class supply system. The company announced on July 1 that more than 400 suppliers from across the country took part in the conference, which was held on June 26 and 27. Leoch COO Wu Kouyue used a keynote speech at the conference to outline the group’s approach to analyzing suppliers’ “pain points” and to introduce Leoch’s strategic procurement system for working with partners. Narada BESS order part of 5.5GWh of deals for 2023 Narada announced in July it had won a Rmb 1.61 billion ($221 million) tender to supply its lithium iron phosphate battery tech to China’s state-owned China Tower. The lead and lithium battery maker said the tender is for a planned BESS. Narada did not disclose details of the deal but said it had won bids and signed agreements for BESS projects totalling around 5.5GWh since the start of this year.
www.energystoragejournal.com
NEWS
India's Exide Industries set to become $2bn lead lithium battery giant, CEO says Indian batteries producer Exide Industries is now close to being a $2 billion midcap business and is poised to unveil new investments in its core lead acid technology, MD and CEO Subir Chakraborty has revealed. Chakraborty said in the firm’s annual report, released on July 13, that Exide had flourished from being a single factory in West Bengal 75 years ago to become a “manufacturing behemoth” — with factories in six Indian states and an export footprint in 60 countries. He said Exide achieved a post-tax profit of Rs904 crore ($110 million) for the 2022-23 financial year, an increase of 18% over the previous year. Market capitalization surpassed Rs15,000 crore on March 31, “meaning we are now almost a $2 billion enterprise”, Chakraborty said. Ebitda for the year was Rs1,568 crore.
Chakraborty said Exide will now build on its core lead acid batteries business by investing in advanced product development, including the commercial release next year of new AGM VRLA batteries for the auto sector. Over the past year, the report says Exide secured lucrative contracts including a partnership with an unnamed major OEM for the supply of AGM batteries to support their transition from flooded batteries to more advanced and efficient AGM batteries. Punched plate technology, which Exide said has seen “great success” in batteries for 4-wheeler vehicles, is now at an advanced stage to be launched for two-wheeler batteries. The company also continues to deploy its high performance sealed batteries to capitalize on growing demand in the telecoms sector with the rollout of 5G.
Amara Raja commits to lead acid as group gets new name Amara Raja Batteries changed its name to Amara Raja Energy & Mobility as of September 28 — saying that its operations would consist of both lead nad lithium battery technolgoies, The India-headquartered group says it intends to develop further in sectors such as battery storage, cell manufacturing, renewables and battery management systems. Jayadev Galla, chairman and MD, said the group had made significant investments in its in-house R&D capabilities in recent years while also partnering with companies “at the forefront of new energy technologies”. Vikramadithya Gourineni, executive director of the group’s new energy business said: “Our transition is more
www.energystoragejournal.com
than just a name change — it reflects our move away from being battery-only.” In a related move, on September 29, the group confirmed it was paying Rs. 1 billion crore ($12 million) in cash to acquire Amara Raja Power Systems from RNgalla Family Private Limited — a company established by the Amara Raja’s founder and former chairman, Ramachandra Galla, who stepped down from the batteries group in 2021. The acquisition should be completed within three months, subject to various regulatory conditions. In May, Amara Raja broke ground for its 16GWh lithium battery cells factory and research complex in the southern Indian state of Telangana.
Meanwhile, the firm expects to ramp up production of its solar batteries to meet what the report said is an expected “solar revolution” in India. Exide’s foray into the lithium ion sector is also gathering pace. The company’s Exide Energy Private subsidiary, which operates the Nexcharge brand, is already supplying high-quality lithium ion battery modules and packs — and has provided “invaluable insights into achieving excellence in Indian climatic conditions and safety requirements”. The report said “industrial exports have faced numerous headwinds, starting with the Ukraine war and winter recession in Europe. “However, we are confident of bouncing back. To mitigate the risks associated with certain markets, efforts have been made to broadbase our exports by entering new and under-served markets such as Korea and Southeast Asia.” Exide said it will continue to scope out new and untapped markets to expand sales across its product range. Separately the Indian battery giant said on September 12 it is extending its reach into renewables with a new investment in the sector. Exide subsidiary Chloride Metals has agreed to take a
stake of around 26% in Zillica Renewables — a subsidiary of Cleantech Solar India. The battery maker will also buy solar energy for its facility at the Supa Partner Industrial Park in Maharashtra from a 4MWp (megawatt peak) plant Zillica is setting up in the state. The move follows Exide’s announcement in February of plans to take a stake of up to 40% in Ulric Renewables Private Limited — a special purpose vehicle subsidiary formed by Cleantech. Exide said it could buy up to 19MW of its power needs for plants in Maharashtra and Tamil Nadu from Ulric wind power projects. Meanwhile, Exide told the National Stock Exchange of India on September 7 it had invested Rs100 crore ($12 million) in its Exide Energy Solutions lithium subsidiary through a rights issue. EES was formed after an agreement in March 2022 for Exide to collaborate with China’s SVOLT Energy Technology to manufacture lithium ion battery cells in India. Last March, Exide said it had given the go-ahead to merge EES with another group subsidiary, Exide Leclanche Energy Private Limited — a business that arose out of the company’s fomer joint venture with Swiss firm Leclanché.
Exide Energy Solutions expands lithium planning site
Exide Energy Solutions is seeking to expand its planned production of lithium ion battery cells in India, the Karnataka state government confirmed on August 21. The Exide Industries subsidiary announced last year that it had agreed a long-term technical collaboration deal with China’s SVOLT Energy Technology for lithium ion cell manufac-
turing on an 80-acre site. Now the company is asking for an additional 40 acres of land to expand the project, Karnataka’s large and medium industries minister MB Patil has confirmed. Exide has said previously that SVOLT, which has its headquarters in China’s Jiangsu province, would support the setting up of the Karnataka plant on a turnkey basis.
Energy Storage Journal • Winter 2023/2024 • 11
NEWS
EV batteries to dominate 3.4TWh demand by 2030 — Wood Mackenzie Annual global demand for batteries will rise up to 3.4 terawatt hours by 2030, with EVs accounting for the vast majority of demand, according to analysis published on August 15. The increase represents a compound annual growth rate of 26% for EV batteries, with ESS and motive products, portable electronics and power devices making up the rest, says the study* by Wood Mackenzie. However, demand growth is forecast to slow to 3% in the 2040s, with demand reaching around 7.3TWh in 2050. The study says current announced battery production capacity is nearly 10TWh, “which is both ambitious and excessive in terms of expected demand” — and much of which the study describes as probable capacity. Preferred cathode technologies for batteries will be a key factor in driving demand for raw materials. Wood Mackenzie expects the weighted average price of a battery pack to fall below $100 per kWh from 2029, mainly thanks to a shift towards iron-based chemistries. The use of lithium ion battery technology will continue to grow with production likely to reach 7.35TWh by 2050. By comparison, sodium ion is “just at the beginning of its ascendancy” — and the study forecasts more capacity to be added to the 158GWh already announced. The study notes that nickel-based cathode active materials are only produced in significant quantities in China, South
Korea and Japan. By the end of the decade, production will have diversified to Germany, Canada, the US, Poland, Indonesia and Finland, but the vast majority will still come from the Asia Pacific region. Meanwhile, LFP batteries account for nearly 70% of both production and installation in China — a switch in technology the study says has happened in just a few years. There are limited plans for production elsewhere and it is expected to level off in China by the end of this decade. The continuing global preference for lithium ion battery tech will be the main driver of a five-fold increase in the lithium market by 2050, the study says. Nearly all mined lithium originates in Australia and China (mined lithium representing more than half of global supply, with the rest coming from brine sourc-
es). But by 2030, Africa and North America will account for 30% of mined supply, according to the study. On recycling, two million tonnes of black mass (shredded and processed battery waste) are expected to be available for processing each year by 2030 at a series of production hubs — swiftly increasing in the 2030s as EVs built in the decade before reach their end-of-life.
Only 157,000 tonnes of lithium carbonate equivalent will come from the recycling sector in 2030, meeting just 7% of overall demand, but the study forecasts nearly two million tonnes will be recycled annually by 2050. Senior research analyst Max Reid said further investment will be key to making sure supply of battery raw materials can meet demand.
The increase represents a compound annual growth rate of 26% for EV batteries, with ESS and motive products, portable electronics and power devices making up the rest, says the study* by Wood Mackenzie. *The study, ‘Electric vehicle & battery supply chain: strategic planning outlook to 2050’ draws on analysis from Wood Mackenzie’s Electric Vehicle and Battery Supply Chain Service. Details are online at www. woodmac.com/news/opinion/electric-vehicle-batterysupply-chain
India launches 'watershed' program to fund 4,000MWh of new BESS projects by 2030-31 The government said on September 6 the cabinet had approved the “watershed” Viability Gap Funding (VGF) scheme, under which the state will cover up to 40% of the capital cost of projects selected under a competitive bidding process. The move aims to increase the viability of energy storage systems as India looks to expand its use of renewables such as solar and wind. VGF is targeting a
12 • Energy Storage Journal • Winter 2023/2024
levelized cost of storage ranging from Rs5.50 crore ($0.066) to Rs6.60 crore per kilowatt hour. Ministers have earmarked VGF grants worth a total of Rs3,760 crore to fund the scheme. Grants will be disbursed in five tranches linked with the various stages of implementing BESS projects. A minimum of 85% of awarded BESS capacity will be made available to power
distribution companies to ensure consumers see real benefit from the scheme, the government said. “This will not only enhance the integration of renewable energy into the electricity grid but also minimize wastage while optimizing the utilization of transmission networks.” According to the government, this in turn will reduce the need for costly infrastructure upgrades.
www.energystoragejournal.com
NEWS
Leoch to acquire GS Yuasa lead battery firms in China Leoch is to acquire controlling stakes in two Chinabased lead battery firms owned by GS Yuasa in a deal worth up to Rmb280 million ($39 million). Leoch, the Singaporeheadquartered lead and lithium major, signed an agreement on July 25 to acquire a 70% stake in Tianjin GS Battery (TJGS) and Yuasa Battery Shunde (YBSD). Leoch said in a Stock Exchange of Hong Kong filing that it will also form a joint venture entity with Japanbased Yuasa. The agreement was to have been completed on September 28.
Leoch also has an option to acquire an additional 10% in TJGS and YBSD at a later date. Leoch said the deal will give it a unique strategic edge in the market because the firms are among the world’s largest manufacturers of lead acid batteries. The move could also pave the way for further expansion and consolidation of the batteries market, Leoch said. Yuasa said it had been forced to review its Chinese operations following the impact of pandemic restrictions and the introduction of tighter environmental regulations.
Yuasa will still be involved in providing technical support for TJGS and YBSD, but both are expected to grow better as part of Leoch, Yuasa said. TJGS was established in China in 1991 and mainly produces batteries for the global automarket. The company also has more than 20,000 battery service outlets across China. YBSD, established in China in 2002, specializes in the development, manufacture and sale of Yuasa brand lead batteries for cars and motorcycles. Its customers have included major automakers in Japan, the UK and other countries.
Sunlight hits the acquisition trail takes control of A Müller, Triathlon Holding Sunlight Group has completed its outright ownership of Germany-based batteries dealer A Müller by acquiring the remaining 49% of shares in the business. The deal, announced on August 9, follows an initial agreement made last year under which Sunlight took a 51% stake in Müller. Sunlight CEO Lampros Bisalas said total ownership would help maximize synergies in sales, warehousing and assembly operations — with a focus on expanding supplies of semi-traction batteries on the global market. Erik Müller will continue as MD of the firm he and his family have built up over nearly 40 years and which will now operate as part of the Sunlight Group. Sunlight’s latest acquisition announcement comes just weeks after acquiring 100% ownership of Germany-based Triathlon Holding. The move follows Sun-
www.energystoragejournal.com
light’s announcement in February that it had acquired a 51% controlling stake in Triathlon, which operates two production and R&D facilities in Germany, as well as a lead acid batteries assembly plant in Dallas. Having full control of Triathlon will optimize production facilities operated around the world under a single management team, Greece-based Sunlight said. The acquisition will also accelerate innovation and investment in development of lithium ion and lead acid battery tech. CEO Lampros Bisalas said: “There are only gains to reap from our one group vision, destined to lead in the sectors in which we’re active.” In May, Bisalas said Sunlight would further invest to ramp up lead battery recycling at its operation in north-eastern Greece. He said the group is also on course to launch a lithium battery recycling plant
within the next three years on the back of a €30 million ($32 million) investment by the company, plus a €3.5 million contribution from the European Union. In February, the Greecebased international battery player revealed it had taken a 51% controlling stake in Israeli Industrial Batteries Energy Storage Systems.
Clarios to acquire Paragon battery unit Clarios is to acquire the auto batteries and BMS business unit of Germany-listed Paragon GmbH & Co KGaA for an undisclosed sum. Clarios, the parent company of transportation battery brand VARTA Automotive, announced the deal on August 30 Clarios CEO Mark Wallace said: “The low-voltage network is critical to the new user experiences, data collection methods and power system transformation underway in vehicles. “Paragon’s team has the skills, culture and commitment to add new capabilities that will accelerate our partnership with key OE customers, especially around advanced lithium ion programs.” Then in June, Sunlight announced it had acquired a 65% stake in Portuguese business partner Logbatind, which specializes in the sale of industrial batteries and chargers.
NEWS IN BRIEF Narada completes first phase of 600MW Chinese BESS Narada Power has completed the 200MW/400MWh first phase of a BESS facility in China, the company announced on September 8. Narada said the lithium-based Leizhou BESS (is now ready to start operations as a shared facility to receive power generated from renewa-
bles around the region. When complete, the BESS is set to have a total capacity of 600MW/1,200MWh, which Narada said will make it the largest such grid-connected facility of its kind in the region. Technologies deployed for the BESS include advanced flame-retardant electrolyte, modulelevel short-circuit self-protection, and an aerospace-grade thermal barrier, Narada said.
Energy Storage Journal • Winter 2023/2024 • 13
NEWS Vistra’s Moss Landing ESS expanded to 750MW Energy firm Vistra announced on August 1 it had completed the expansion of its now 750MW/3,000MWh Moss Landing energy storage facility in California. Vistra said the third phase expansion, which added 350MW/1,400MWh to the lithium ion facility’s capacity, had entered commercial operation on June 2 and is storing power and releasing it to California’s grid. The third phase expansion comprises 122 individual containers that together house more than 110,000 battery modules. Moss Landing Energy Storage Facility is colocated on the site of Vistra’s existing natural gas-fuelled power plant in Monterey County. Texas-based Vistra opened Moss Landing in January 2021, hailing the then 300MW/1,200MWh system as the largest such facility in the world. Kore Power signs battery offtake deal with Energy Vault KORE Power announced a deal on August 9 to supply batteries for Energy Vault energy storage systems manufactured in the US. KORE will start the supply in 2025 after the first phase of its Arizona KOREPlex facility comes on line. Some 1.3GWh of batteries will be supplied to Energy Vault in 2025, ramping up to 7GWh in 2027 as KORE’s manufacturing expands. KORE broke ground for its facility, where it will produce NMC and LFP battery cells for customers in the energy storage and e-mobility sectors, last year.
Energy Vault, whose tech portfolio includes gravity energy and hydrogen storage, made a $15 million investment in KORE in 2022 as part of an initial $75 million tranche of a $150 million investment round led by Siemens Financial Services, the B2B financing arm of Siemens, followed by contracting service company Quanta Services and others. New York’s first state-owned BESS starts up New York’s first stateowned BESS has started operations, governor Kathy Hochul announced on August 25. The 20MW Northern New York Energy Storage Project, in North Country’s Franklin County, is helping to relieve transmission congestion on the state’s electric grid. The facility, maintained and operated by the St Lawrence-Franklin D Roosevelt Power Project, consists of five 53ft walkin enclosures, each with more than 19,500 lithium ion batteries grouped in modules and stacked in racks. New York plans to install 6,000MW of energy storage capacity by 2030. Wärtsilä signs LFP cells contract with Eve Energy Wärtsilä has signed a multi-year supply agreement with China’s Eve Energy, the firms announced on September 12. Eve will provide LFP battery cells for the Finnish tech company’s GridSolv Quantum energy storage systems. Wärtsilä says it has more than 3.5GW and more than 7GWh of BESS capacity awarded, contracted, or in
14 • Energy Storage Journal • Winter 2023/2024
deployment across six continents. Jaguar, Wykes develops second-life EV battery BESS Jaguar Land Rover (JLR) said on August 23 it has developed a 2.5MWh BESS in the UK using second-life EV batteries with Wykes Engineering, which the partners aim to expand to 7.5MWh by the end of the year. The batteries supplied have been taken from prototype and engineering test vehicles and the 7.5MWh BESS could eventually provide a day’s power for 750 homes, JLR said. “After this point more containers can be created to house additional second-life batteries removed from used production vehicles in the future.” The batteries were removed from the Jaguar I-PACE and slotted into racks in the containers on-site. “Using the 70%80% residual capacity in EV batteries, before being recycled, demonstrates full adoption of circularity principles,” said François Dossa, JLR’s executive director of strategy and sustainability. Metso adds battery precursor pilot plant to Finnish R&D center Minerals and metals industrial company Metso said on September 21 it has opened a battery materials precursor pilot plant at its research center in Finland. Metso has also expanded processing testing capabilities at its R&D center in Pori for lithium hydroxide and other battery chemistries. The pilot facility serves mining and battery
industry customers processing battery minerals as Finland ramps up its credentials to be a key player in Europe’s developing EV and ESS battery supply chain. Janne Karonen, Metso’s director for hydrometallurgical R&D, said pilot run requests for battery minerals such as lithium, nickel and cobalt have increased significantly during the last three years. “We are working on several battery black mass recycling and precursor projects and have several lithium and other battery chemicals project pilots on our laboratory schedule,” Karonen said. Helsinki-listed Metso says its proprietary processes cover the extraction of lithium from brines and pegmatite ores up to battery-grade lithium salts. Energy Storage Journal reported in April that energy company Fortum had started commercial operation of its lithium hydrometallurgical battery material recycling facility in Finland. Narada signs deal for Australian BESS Lead and lithium battery maker Narada Power has signed a Rmb335 million ($46 million) deal with Shanghai Electric Power Design Institute Materials to supply battery tech for a BESS project in Western Australia. Narada has signed a purchase contract with Shanghai Electric Power to supply lithium iron phosphate batteries for the 100MW/200MWh Wagerup Big Battery project near Perth. The two-hour duration BESS will support peak shaving and frequency modulation to stabilize the grid.
www.energystoragejournal.com
The Battery and Energy Storage
CONFERENCE WATCH MONTHLY The definitive guide to battery energy storage conferences and meetings for the year ahead
SUBSCRIBE FOR FREE Contact Jade Beevor jade@energystoragejournal.com
NEWS
Stellantis and Samsung SDI plan second joint battery plant for US Stellantis and Samsung SDI are to build their second EV battery plant in the US that will have an initial 34GWh production capacity, the firms announced on July 24. A memorandum of understanding has been signed aimed at starting production in 2027 — at an as-yet unnamed site — through the companies’ StarPlus Energy joint venture. Italian-French auto firm Stellantis and Samsung SDI confirmed plans to build
their first joint venture battery plant in Indiana in May 2022. That 33GWh facility is to start up in the first quarter of 2025 and use Samsung SDI’s PRiMX technology to produce EV battery cells and modules for the North American market. Stellantis CEO Carlos Tavares said: “We are continuing to add more capacity in the US together and laying the next steps to reaching our carbon neutrality com-
mitment by 2038.” Samsung SDI president and CEO Yoon-ho Choi said the second plant will accelerate market penetration in the US. Energy Storage Journal reported on July 13 that Stellantis and LG Energy Solution were resuming construction of their NextStar Energy EV battery plant in Canada under a deal worth up to C$15 billion ($11.4 billion) in tax breaks for the project.
China’s Gotion secures incentives deal for $2bn Illinois gigafactory China-based Gotion HiTech is to start production at a $2 billion EV battery manufacturing plant in Illinois next year, the state’s governor announced on September 8. State governor Jay Pritzker said Gotion had secured a state investment and incentives package to transform a former plant site in Manteno into the gigafactory. Gotion’s total incentives package from Illinois is valued at $536 million, includ-
ing eligibility for tax benefits totaling $213 million over 30 years. The company has to invest a minimum of $1.9 billion and create 2,600 full-time jobs. The 150-acre facility will focus on lithium ion cells, battery pack production and energy storage systems. Manteno is expected to eventually produce around 10GWh of battery packs and 40GWh of cells annually.
Gotion will be the first recipient of Invest in Illinois funding, which was signed into law in early 2023 to make the start more attractive when vying for large projects such as those in the clean energy sector. Gotion chairman Li Zhen said his firm’s battery tech would help to boost e-mobility in North America as well as economic and trade exchanges between China and the US.
Tata to invest £4bn for UK gigafactory UK battery ambitions were given a major boost in midJuly as Tata Sons confirmed plans to invest more than £4 billion ($5 billion) to build a 40GW battery cell factory in the country. Tata chairman Natarajan Chandrasekaran said the gigafactory would start producing cells at the site in Somerset in 2026 following a “rapid ramp-up phase” — supplying batteries for EVs and battery storage systems in the UK and mainland Europe. The UK government said its financial support for the project, reportedly amounting to hundreds of millions
of pounds, will be disclosed at a later date. Chandrasekaran said the move also underscored the group’s commitment to investing in e-mobility through its UK-based Jaguar Land Rover business. The plant will deploy innovative technologies and resource efficient processes like battery recycling to recover and reuse all the original raw materials “to deliver a truly circular economy ecosystem”, Tata said. “The battery gigafactory will produce high-quality, high-performance, sustainable battery cells and packs for a variety of applications
16 • Energy Storage Journal • Winter 2023/2024
within the mobility and energy sectors.” According to the UK government, the plant’s initial 40GWh output will provide nearly half of the battery production that the Faraday Institution estimates the UK will need by 2030. However, the founder of the UK’s FairCharge EV campaign group, Quentin Willson, said there was a genuine fear in the industry that the project “could sweep up all available government support, which would be hugely detrimental” to the UK’s net-zero plans.
Freyr gets €199m from EU to support Giga Arctic project Freyr Battery has been awarded €100 million ($112 million) from the European Union to support its Giga Arctic project in Norway. The grant, from the EU’s Innovation Fund, provides timely support for continued development of Freyr’s 29GWh nameplate capacity project, co-founder and CEO Tom Einar Jensen said on July 13. Freyr’s board gave the go-ahead to start construction of the facility in June 2022. Giga Arctic will be powered with 100% renewable hydroelectricity, the company says. Last November, Freyr announced it had bought a site in the US state of Georgia to build its planned Giga America battery cells manufacturing plant. The first phase of that project will have an annual production capacity of around 34GWh. In March, Freyr held an inaugural ceremony for its separate battery cells customer qualification plant in the north of Norway. The customer qualification plant in Norway’s Mo i Rana hosts an industrial-scale demonstration battery cells production line based on 24M’s semi-solid lithium ion technology. Freyr plans to develop up to 43GWh of battery cell production capacity by 2025, with an ambition of up to 83GWh in total capacity by 2028.
www.energystoragejournal.com
NEWS
www.energystoragejournal.com
Energy Storage Journal • Winter 2023/2024 • 17
NEWS
China, Australia in lithium mining spat China has hit out at Australia as the two sides have become embroiled in a spat over lithium mining rights. Australia’s treasury minister Jim Chalmers (pictured) confirmed on July 20 he had blocked Austroid Australia from acquiring an additional 90.10% stake in Alita Resources — giving Austroid 100% ownership. Alita collapsed into insolvency in 2019 with estimated reserves at its Bald Hill
mine of 11.3 million tonnes of lithium ore and two million tonnes of tantalum ore. Austroid is an Australian subsidiary of the US-based Austroid Corporation, but Chinese state media says the deal was blocked because the subsidiary has a Chinese national as a director. The director is also on the board of China’s Liatam Mining, which tried to buy Alita’s assets in 2020 but was unable to get regula-
tory approval in Australia, according to an editorial in the China Daily. The editorial accused Australia of joining in with USled “anti-China hysteria”. “Australia should be cleareyed and wise enough to recognize that its national interests are not always in line with those of the US,” the paper said. The Australian government says the issuing of an order to block the deal was
Sumitomo Metal Mining invests in Nano One Sumitomo Metal Mining is investing C$16.9 million ($12.5 million) in Nano One as part of a new battery materials development partnership. The firms said on September 25 the equity investment boost was part of a collaboration that would have a particular focus on LFP and NMC production
using Nano One’s patented One-Pot process. Nano One has plans to build its first commercial LFP plant adjacent to its existing pilot facility in Candiac, Québec. According to the partners, LFP is an important battery type that will capture a significant portion of the market in the years ahead
— and can be produced in North America, Japan and other regions using the technology and know-how of both companies. Sumitomo’s mining, smelting, refining and metals processing operation includes nickel-rich cathode materials for lithium ion battery and EV producers.
‘More battery materials mining is needed’ to reach net zero, says study Mining for battery materials needs to be ramped up worldwide over the next decade if countries are to meet their net-zero economy pledges, according to a new study published on July 20. The paradoxical situation of digging up more of the planet to fuel the clean energy transition is set out by the Energy Transitions Commission (ETC) — a coalition of organizations including energy producers, technology providers, finance players and environmental bodies. ETC’s report, Material and Resource Requirements for the Energy Transition, says water requirements for activities including metals mining, cleaning solar panels and electrolysis for hydrogen, could be as much as 1.5–2 times higher than for fossil fuel energy systems, but lower than that for ag-
ricultural uses. Meanwhile delays in the battery materials supply chain could spark further fresh price increases for EVs, leading to “hundreds of millions of internal combustion engine vehicles remaining on the road for many more years”. ETC says building the new energy system will initially push up CO2 emissions because the first generation of any new clean technology has to be built using fossil fuel based energy. But the production of materials to support the energy transition will result in total global cumulative life cycle emissions of 15-30 gigatonnes CO2 equivalent, compared with the approximately 40 GtCO2 produced every year from the current fossil-fuel-based energy system. ETC chair Adair Turner
18 • Energy Storage Journal • Winter 2023/2024
said there are enough resources and minerals in the world for the energy transition. However, with some key minerals such as lithium and copper “it will be challenging to scale up supply fast enough over the next decade to keep pace with rapidly rising demand”. Turner said governments, regulators, producers and consumers must work together to increase recycling, improve material efficiency, invest in new mining and regulate environmental and social standards. Wood Mackenzie research analyst Max Reid told the Advanced Automotive Battery Conference in Germany in June 2022 that more mining of raw materials would be needed to supply lithium ion battery manufacturers because “recycling alone cannot meet demand”.
on the advice of its Foreign Investment Review Board and declined to comment further. The prohibition came just weeks after Australia unveiled a new critical minerals strategy, including a pledge to pump A$500 million ($332 million) of fresh investment into sectors including battery materials supply. Resources and Northern Australia minister Madeleine King said in June the country aimed to become a “globally significant producer of raw and processed critical minerals”.
Northvolt backs deepsea diving ban Swedish battery developer Northvolt is backing calls by global conservation group WWF for a moratorium on deep-sea minerals mining. Northvolt said on July 26 that, before any deep seabed mining occurs to recover battery metals such as cobalt, nickel and lithium, “it must be clearly demonstrated that it can be managed sustainably”. However, Northvolt also acknowledged the need to expand terrestrial mining and production of metals around the world to produce EV batteries and support the clean energy transition. Northvolt said it was founded to enable a decarbonized future, but said deep-sea mining has no place in that future at present. WWF said signatories to the moratorium also commit to excluding any minerals derived from deep-sea mining from their supply chains.
www.energystoragejournal.com
NEWS
MIT team say concrete and carbon black mix could energize storage Cement and carbon black could the form the basis of a novel low-cost energy storage system, according to studies by the Massachusetts Institute of Technology. Researchers found the two materials can be combined with water to make a supercapacitor that could store electrical energy, according to an MIT news article published on July 31. As an example, the MIT researchers that developed the system say it could even-
tually be incorporated into the concrete foundation of a house, where it could store energy. The team also envision a concrete roadway they say could potentially provide contactless recharging for electric cars as they drive along. Researchers calculated that a 45m³ block of nanocarbon-black-doped concrete would have enough capacity to store about 10kWh of energy, which
they said is considered the average daily electricity usage for a household. Details of the research are included in the Proceedings of the National Academy of Sciences journal in a paper by MIT professors Franz-Josef Ulm, Admir Masic, Yang-Shao Horn and colleagues at MIT and the Wyss Institute for Biologically Inspired Engineering. The team says the key to its supercapacitor de-
NGK sodium sulfur, zinc batteries chosen for Hungary ESS demo NGK Insulators is to provide the battery tech for a stationary storage demonstration project at Hungary’s Centre for Energy Research, the company said on July 24. NGK says its proprietary large-capacity NAS sodium sulfur and zinc batteries will be used in the project working with Hungarian
engineering company Duna Center Therm Uzemi Szolgaltato. NAS batteries have a large capacity and ability to discharge electricity over long periods of time, making them suitable for peak shift for solar power generation, according to NGK. The demonstration project comes as Hungary
pushes ahead with moves aimed at expanding the deployment of grid-scale battery storage to help achieve clean energy goals, NGK said. In February, NGK said it would be providing the battery tech for a virtual power plant project in Japan as part of a joint venture with Ricoh.
velopment comes from a method of producing a cement-based material with an extremely high internal surface area due to a dense, interconnected network of conductive material within its bulk volume. Researchers achieved this by introducing carbon black into a concrete mixture along with cement powder and water and allowing it to cure. The water naturally forms a branching network of openings within the structure as it reacts with cement, and the carbon migrates into these spaces to make wire-like structures within the hardened cement, according to the paper. These structures have a fractal-like structure, with larger branches sprouting smaller branches, and those sprouting even smaller branchlets, and so on, ending up with an extremely large surface area within the confines of a relatively small volume.
Morrow Batteries teams with Gamma in virtual cell R&D Morrow Batteries is teaming up with Gamma Technologies to use virtual systems in the development of cells tech, the firms said on August 21. The Norway-based battery developer said Gamma will provide electrochemical models for physics-based digital twin simulations of its battery cells. Morrow co-founder and CTO Rahul Fotedar said the partnership would help accelerate development of its battery cell tech. “GT’s innovative technology reduces the need to build and test on real cells — which helps us reduce costs. “Through simulations, we can study a larger design space to find the optimal so-
www.energystoragejournal.com
lutions that are best suited as we continue developing the world’s most cost-effective and sustainable batteries.” Morrow’s R&D processes will be digitized using GT’s simulations to gain insight into the batteries that would be difficult or impossible to measure using physical testing, the partners said. Separately, Morrow said on August 28 it was also partnering Nordic Batteries and Eldrift to develop complete battery packs for mobile and stationary battery energy storage systems. The overall project and product pipeline amounts to 7GWh until 2030. The three Norwegian companies will comprise a large part of the battery sys-
tems supply chain. Morrow will supply prismatic cells with the existing LFP technology and its next-generation LNMO-X chemistry. Energy Storage Journal reported in May that Morrow had agreed a loan deal of NOK567 million ($53 million) to support development of its battery cells projects at Arendal in Norway, where production is to begin
in 2024. Last month, Morrow said it had achieved an 86% yield of battery cells production at its customer qualification plant in South Korea just four months after opening. Morrow started test production at Chungju-si in February and has produced more than 600 prismatic cells with NMC battery chemistry.
Echion formalizes Inobat anode R&D plan Echion Technologies said on September 12, Echion said it had formalized a collaboration agreement with Slovakian EV batteries firm InoBat. The two will study how
XNO anode material could boost performance of InoBat’s products. Echion will guarantee supply of XNO and access to its electrochemistry for InoBat’s cell design.
Energy Storage Journal • Winter 2023/2024 • 19
NEWS
Proposal for new EU chemicals ban to create a threat to flow batteries A proposed EU ban on a group of chemicals key to the development of certain flow batteries could deal a devasting blow to the sector, industry leaders told Energy Storage Journal at the end of September. The European Chemicals Agency (ECHA) is recommending restricting the use of per- and poly-fluoroalkyl substances (PFAS), citing concerns over the environment and public health. Fluoropolymers are one of PFAS category present in certain flow batteries’ ionomer and ion exchange membranes — in addition to flow battery stack components and accompanying subsystems. Flow Batteries Europe (FBE) policy officer Beata Viršumirska told Energy Storage Journal a ban on fluoropolymer-containing parts could threaten the produc-
tion and widespread adoption of competitive technology. This would “hinder the seamless incorporation of renewable energy into the grid”. In turn, this could delay the EU achieving the bloc’s climate change goals, Viršumirska said. FBE represents flow battery stakeholders to shape a long-term strategy for the flow battery sector as well as the legal framework for flow batteries at the EU level and contribute to the EU decision-making process. An FBE position paper — https://flowbatterieseurope. eu — on the issue released warns an outright and immediate ban on fluoropolymers would have a significant socio-economic impact on the EU and could cause innovative technology companies to leave the European
market or shift focus from some flow battery technologies. One major repercussion would be the increased operational expenditure, as replacing PFAS-based parts with alternative solutions is expected to incur additional costs, estimated to be in the range of at least 10%. The paper says these higher expenses could potentially trickle down to consumers, affecting energy storage system prices and overall market competitiveness. FBE says flow battery companies, universities, and R&D centers are already exploring alternative solutions. For instance, certain organic flow batteries are entirely PFAS-free, and iron-chromium-based flow batteries are actively exploring alternatives. However, FBE says market-ready flow batteries rely
on components with fluoropolymers. FBE is now calling on ECHA to exempt fluoropolymers from any PFAS ban, saying they are not classified as hazardous under the EU’s Classification, Labelling and Packaging Regulation and play a crucial role in ensuring the stability, performance and safety of marketavailable flow batteries, that are among the technologies driving the EU’s ambitious climate goals. If the ban goes ahead, FBE is calling for a 13.5-year exemption period for the flow battery sector to allow for further R&D and testing of fluoropolymer alternatives. One energy industry commentator told Energy Storage Journal that ECHA often appears to be working against the EU’s transition to climate friendly technologies.”
US DoE analysis puts redox batteries as one of many future ESS technologies Lead, lithium and flow batteries have been included among assessments of 10 technologies with the potential to support future long duration energy storage (LDES) projects in the US. The Department of Energy analysis came in a series of
technical reports released on July 19 under its Energy Storage Grand Challenge initiative by the Office of Electricity. The DOE is backing LDES research, development, and deployment and aims to achieve 90% cost reductions
for technologies that can provide 10 hours or more of energy storage within the coming decade. On redox flow batteries, the DOE said they have unique characteristics such as decoupled energy and power, scalability, and poten-
tial cost-effectiveness, due to their liquid nature. These features make RFBs well suited for various applications, including utilityscale energy storage, microgrids, renewables integration, backup power, and remote/off-grid power.
AVL appoints Primero Group to build Australia vanadium plant Australian Vanadium said on August 14 it had appointed the Primero Group to build its vanadium electrolyte manufacturing facility in Western Australia. The facility is designed to produce up to 33MWh per year of vanadium flow battery high purity electrolyte, starting commercial production in November
2023. AVL said Simon Rough has been appointed to manage construction through to production. Rough has 20 years’ experience in vanadium processing and sulphuric acid production, making him a perfect fit to lead the team, the company said. AVL holds the exclusive licence for US Vanadium’s
20 • Energy Storage Journal • Winter 2023/2024
electrolyte manufacturing technology for Australia and New Zealand, which is being deployed to de-risk construction and start-up. Vanadium oxide feedstock for the electrolyte facility will initially be sourced through AVL’s agreement with USV and third-party sources. Graham Arvidson, AVL’s chief executive, said the
firm was on course to become a trusted supplier of vanadium electrolyte within Australia and beyond. AVL was awarded an A$3.69 million ($2.4 million) federal government grant in 2021, with part of the funding allocated to building and operating the Western Australia facility to support the commercialization of VFBs.
www.energystoragejournal.com
NEWS
New EU Battery Regulation recycling targets ‘challenging and timeline fanciful’ Some of the ambitious recycling targets set out in the new EU Battery Regulation may have little basis with current technological abilities to recover metals from battery scrap with the timeline proposed fanciful. This was the implication of an after-presentation expert discussion at the Asian Battery Conference in Siem Reap on September 6. Steve Binks, director at the International Lead Association, gave a paper entitled The EU Battery Regulation — Setting the New Standard for Sustainable Battery Value Chains which outlined the scope and purpose of the new Battery Regulation which was voted into
effect at the end of July this year. “Although the Regulation has much to be admired — it’s the first global policy instrument to address all aspects of a battery’s lifecycle and is designed to secure the sustainability and competitiveness of EU battery value chains — clearly there are going to be huge challenges in its implementation,” said one delegate. “In particular some of the timelines outlined by the EU are fanciful and targets over-ambitious.” The regulation sets a target for lithium recovery from waste lithium-ion batteries of 50% by the end of 2027 and 80% by the end of 2031.
It also provides for mandatory minimum 8levels of recycled content for industrial, SLI batteries and EV batteries. These are initially set at 16% for cobalt, 85% for lead, 6% for lithium and 6% for nickel. These are raised to cobalt 26%, lead 85%, lithium 12% and nickel 15%. When delegates pointed out to Steve Binks that no expert could predict that — with the exception of lead — such recycled content targets were possible, he said that the Regulation included provisions for Commission to revise them in 2028 when more information about the market availability of battery grade recycled material would be known.
He admitted, however, that the recycled content target levels proposed in the Battery Regulation had been set by political will rather than expert analysis. “The consultants who advised the Commission wanted to set more realistic, achievable targets than these, but their views were overruled during the political process,” he said. The new Battery Regulation replaces the current batteries directive of 2006 and is the first holistic piece of legislation under the EU’s socalled “Green Deal” that covers the entire life cycle of a product: from raw material sourcing, design, use and end-of life.
Yuasa provides bespoke hybrid leadlithium BESS for UK's Royal Mint The UK’s official coin maker, the Royal Mint opened an energy center on July 19 that had been supplied with with a GS Yuasa hybrid lead and lithium BESS. The center in Wales comprises a 2MW solar farm, two wind turbines, a hydrogen-ready combined heat and power (CHP) unit and the BESS. The BESS is controlled by
www.energystoragejournal.com
a bespoke battery management system developed by Yuasa, the University of Sheffield and Infinite Renewables. AB Energy UK supplied the CHP engine, which Infinite said was selected for its ability to maximize the amount of power that can be produced from the gas consumed. Infinite designed, sup-
plied and built the Vestas ‘Daffodil’ wind turbines. Royal Mint head of sustainability Inga Doak said the center will provide up to 75% of the company’s electricity needs every year. Infinite director Andrew Crossman hailed the center as a blueprint for commercial and domestic sustainable energy systems in a low carbon world.
The Consortium for Battery Innovation said the project was a great example of using two key future technologies, lead and lithium, to develop energy storage systems. The center is part of a project funded by the European Regional Development Fund through the Welsh government and Albion Community Power.
Energy Storage Journal • Winter 2023/2024 • 21
NEWS
European lithium recycling viable by 2035 with more investment The EU could see lithium ion battery recycling become a profitable business before 2035 but the sector will need greater investment to get there, says a new study released on August 16. More than €2 billion ($2.1 billion) in investments into the EU recycling market for
lithium batteries are forecast by 2030, according to the study by the strategy consulting business unit of PricewaterhouseCoopers and Germany’s RWTH Aachen University. Handling further market growth through to 2035 will require additional investments of €7 billion, but
EU recycling could then become viable and sustainable with a projected revenue of around €8 billion and a potential fall in battery costs. However, while recycled material can contribute up to 60% of battery requirements in 2040, a completely closed loop “will not be possible
Portovesme study starts as Li-Cycle launches Germany recycling plant A feasibility study where lead and zinc processing at Glencore’s Portovesme subsidiary in Italy could be replaced with a lithium recycling operation is underway, Li-Cycle confirmed on August 1. Li-Cycle announced the launch of the study as its first European lithium ion battery recycling plant in Germany moved into operation. Canada-based Li-Cycle said black mass produced at the Magdeburg, Germany ‘spoke’ facility would be
processed at the Portovesme ‘hub’ if a proposed 50-50 joint venture with Glencore goes ahead. Spoke facilities are where all types of lithium ion batteries are transformed from a charged state to what the firm describes as an inert product. The resulting black mass is then transferred to a hub, where cathode and anode materials are processed into battery grade endproducts for reuse in battery production or other applications.
Both companies have yet to say whether Portovesme could also continue lead and zinc processing. Li-Cycle had not responded to questions from Energy Storage Journal at the time of publishing this article. Li-Cycle has said Portovesme would have an expected black mass processing capacity of 50,000-70,000 tonnes annually. Li-Cycle plans more spoke facilities in France and Norway in addition to its existing spokes in North America.
UK urged to ramp up training, collaboration for battery recycling Leaders of industry, academia and government must step up collaboration to promote a thriving battery recycling sector in the UK, says a report published on August 15. The 2035 UK Battery Recycling Industry Vision, released by the Innovate UK Knowledge Transfer Network, says sustainable battery recycling processes, safe and rapid discharging of packs and a highlytrained workforce are
needed to secure sources of vital battery materials at a time of limited global supply. Establishing a recycling ecosystem would also attract investment from battery manufacturers, who will be keen to be based close to recycling centres, the report says. Co-author and knowledge transfer manager Sheena Hindocha said: “Without going into the politics of supply monopo-
lies, there’s already a finite amount of raw material to make batteries, and with over 450,000 tonnes of cell production predicted for 2040, we must act now to develop the end-of-life infrastructure required for this demand.” In August 2022, the UK’s Faraday Institution signed a joint battery research agreement with the US Department of Energy’s National Renewable Energy Laboratory.
Redwood acquires Redux to move into EU recycling market Redwood Materials has realized its expansion into the European EV and ESS battery recycling market by acquiring Germany-based Redux, the companies announced on September 19.
Nevada-based Redwood said in February 2022 it was looking to move into Europe where EV sales are forecast to account for nearly 30% of cars by 2025.
22 • Energy Storage Journal • Winter 2023/2024
The deal with Redux, for an undisclosed sum, gives Redwood a well established presence in the EU from which it can quickly expand operations, the firm said.
until well beyond then”. Regulatory changes in the EU, such as those included in the new Batteries Regulation, will help drive recycling, the study says. Meanwhile higher electrification rates and the rampup of EU cell production to around 900GWh in 2030 could boost the recycling market to around 6,000 kilotonnes of end-of-life batteries in 2040. In 2035, recycled material may account for up to 30% of Li, Ni, and Co demand for battery cell production. By 2040, battery recycling in Europe is to rise 10-fold compared to 2030, which will initially be driven by gigafactory scrap.
ABB partners Altilium on battery processing ABB is set to supply equipment for Altilium’s planned commercial battery recycling plant in the UK under an agreement announced by the firms on October 4. The partnership has started with a memorandum of understanding under which ABB will provide control systems for Altilium’s pilot UK plant — producing cathode active material from used EV batteries. Now the companies plan to extend their cooperation to launch Altilium’s planned commercial recycling plant, in Teesside, set for development from 2026. The partners also plan a retrofit of Altilium’s European Solvent Extraction-Electrowinning facility in Bulgaria, which is set to start processing battery waste next year.
www.energystoragejournal.com
NEWS
Australian watchdog ACCC calls for urgent lithium safety rules Australia’s consumer watchdog is calling for a harmonized electrical safety regulatory framework across all states to help combat fires and other incidents linked to lithium ion battery products. The Australian Competition and Consumer Commission (ACCC) said in a report published on October 5 there has been one fatality in the country attributed to a lithium battery fire and numerous reports of injuries in Australia.
The move follows renewed calls at an international level for standard regulation and procedures at all scales of lithium use. One recent study pointed out that there had been 68 lithium BESS fires worth recording this year and innumerable incidents from the Consistent state and territory legislation regulating products containing lithium batteries is needed — pooling the expertise of electrical safety regulators
throughout Australia. A national product safety incident database is also needed to support identification and analysis of consumer product safety hazards, the report says. The exact number of incidents is unknown because many go underreported and the problem is compounded by differences in how data is collected from state to state. However, the ACCC says there has been a six-fold increase in media reports
ACCC confirmed that LG Energy Solution Australia is recalling almost 17,000 home solar batteries in Australia because they may overheat and catch fire.The recall follows a separate warning issued by the ACCC last November after a recall of “potentially deadly” faulty batteries in residential energy storage systems.
Genex probes fire at modified Australian megapack BESS Genex Power is investigating a fire at an Australian BESS involving a Tesla battery unit design modified following a blaze at a separate facility in the country two years earlier. Renewables and energy developer Genex said one of the 40 lithium ion Megapack units at the 50MW/100MWh Bouldercombe Battery Project caught fire on the evening of September 26. Genex said fire chiefs decided to allow the “low intensity” fire to burn out under supervision and did not use water to extinguish the blaze. No one was on site at the time of the incident and the BESS was disconnected from the grid. A Genex spokesperson told Energy Storage Journal on October 2 that the
www.energystoragejournal.com
Bouldercombe unit was a design that had undergone a safety retrofit by Tesla following a 2021 fire at the 300MW Victorian Big Battery facility in 2021. An independent report into the Victorian fire — by engineering and energy storage fire safety consultants Fisher Engineering and the Energy Safety Response Group — said a single Megapack caught fire and spread to a neighbouring unit during the initial installation and commissioning of the facility. The findings identified a “weakness in the thermal roof design that permits Megapack-to-Megapack fire propagation” — and said the fire was exacerbated by strong winds. Tesla later devised thermally insulated steel vent shields to protect the over-
pressure vents from direct flame impingement or hot gas intrusion. According to the report, tests showed that with the new vent shields in place — “even with the Megapack’s thermal roof fully involved in a fire — the overpressure vents will not ignite and the battery modules remain relatively unaffected with internal cell temperatures rising less than 1°C”. Meanwhile, the Bouldercombe site in Queensland is nearing the end of its commissioning phase, which is set for completion at the end of this month. Energy Storage Journal reported in March 2022 that Tesla would operate Bouldercombe for the first eight years and provide Genex with guaranteed revenues.
relating to lithium battery incidents between February 2021 and February 2023 and 23 recalls between January 2017 and December 2022 involving lithium batteries and products containing them. Those recalls affected an estimated 89,000 products on the market, the report says. ACCC deputy chair Catriona Lowe said: “We are concerned by increasing reports of lithium ion battery fires resulting in property damage and serious injuries, including burns, chemical exposure and smoke inhalation.” By 2026, most Australian homes will have on average 33 devices powered by lithium ion batteries, the commission says. The watchdog is calling for a nationwide consumer education campaign on how to safely use lithium battery products and correctly dispose of used batteries. Meanwhile, the ACCC confirmed that LG Energy Solution Australia is recalling almost 17,000 home solar batteries in Australia because they may overheat and catch fire. The recall follows a separate warning issued by the ACCC last November after a recall of “potentially deadly” faulty batteries in residential energy storage systems. Energy Storage Journal reported (see story below) that Genex Power is investigating a fire at an Australian BESS involving a Tesla battery unit design modified following a blaze at a separate facility in the country two years earlier. Renewables and energy developer Genex said one of the 40 lithium ion Megapack units at the 50MW/100MWh Bouldercombe Battery Project caught fire on the evening of September 26.
Energy Storage Journal • Winter 2023/2024 • 23
NEWS
NY governor Hochul launches ESS fire safety task force A new multi-agency fire safety taskforce has been ordered to spearhead inspections of ESS sites across New York State. State governor Kathy Hochul said on July 28 the Inter-Agency Fire Safety Working Group would ensure the safety and security of ESS sites following fires at facilities in Jefferson, Orange, and Suffolk Counties this summer. Despite such fires being “exceedingly rare” Hochul said state agencies would begin immediate inspections of energy storage sites through the working group.
She said this would help prevent fires and ensure emergency responders have the necessary training and information to prepare and deploy resources in the event of a fire. Hochul said the working group will review ESS operations and operators — as they examine the condition of their batteries to verify operation within design parameters, correct any deficiencies, check on-site fire suppression measures and confirm fire suppression plans with local fire departments. Findings from probes into
the incidents will include a list of recommendations for stationary energy storage equipment and installations. The findings and recommendations will be shared with organizations including the New York City Fire Department, National Fire Protection Association, International Code Council, the New York State Fire Prevention and Building Code Council and Underwriters Laboratories. The governor did not single out sites involved in recent fires, but one is known to be Convergent Energy’s BESS facility in Warwick.
The utility reported on June 29 that investigations were underway following a fire involving one of its Powin Centipede systems. In June 2022, Hochul unveiled plans for 22 largescale solar and battery storage projects for some 2,408MW in New York State. Last May, New York City fire commissioner Laura Kavanagh said she would consider supporting further measures aimed at stamping out lithium ion battery fires following a number of incidents, some fatal, involving e-scooters and e-bikes.
Fire-damaged EV cargo ship analysis underway Stricken car carrier the Fremantle Highway was towed into a Dutch port in early August after a fatal onboard blaze, with initial reports suggesting an EV battery was to blame and the probability rising that this was the case. According to Lloyds List, nearly 500 EVs were among the 3,784 cars on board the vessel when fire broke out on July 25, while en route from Germany to Singapore via Egypt. Dutch broadcaster RTL has released a recording of an initial emergency responder reporting that the fire “started in the battery of an electric car”. But the Netherlands Coastguard has distanced itself from the recording, saying it is too early to say what triggered the blaze that led to the death of one of the 23 crew members and injured many others. Rijkswaterstaat, part of the Dutch Ministry of Infrastructure and Water Management, said yesterday there were no indications
that the fire was continuing. Rijkswaterstaat said the cargo could be safely unloaded at the port allowing investigators to establish the cause of the blaze. Only two of the rescued crew members remained in hospital as of July 30, according to vessel charter company Kawasaki Kisen Kaisha. The Fremantle Highway
24 • Energy Storage Journal • Winter 2023/2024
was built in 2013 and has the capacity to carry 6,000 vehicles. An industry observer told Energy Storage Journal: “As terrible as the incident has been, one can only imagine how much worse thing might have been if the ship had been filled to capacity.” In a separate report published on July 27, Allianz Commercial said fires on
vessels such as the Fremantle Highway remain one of the biggest safety issues for the shipping industry. The report said lithium ion fire risks will likely ease over time as manufacturers, carriers, and regulators address the current challenges. “In the meantime, attention must be focused on preemptive measures to help mitigate the peril.”
www.energystoragejournal.com
NEWS
Ford still under pressure over volumes of EV sales, batteries Turmoil at auto giant Ford continues over its EV business with concerns being raised at the losses made on EV sales, details of the links the firm has with Chinese sourcing of EV batteries and plant, and a dispute and strike with workers, according to sources as Energy Storage Journal went to press. Although EV sales were at their best-ever level at 20,962 for the third quarter this compares with sales of 14,843 during the second quarter. Renewable energy specialist Robert Bryce wrote in July, “Ford reported a $1.08 billion operating loss on its EV business during the second quarter and … [putting that figure with the sales numbers] … that means Ford lost $72,760 for EV sold.” Ford’s EV future has also been complicated by its October 6 deadline to give the US Congress details of its ties to Chinese EV batteries major Contemporary Amperex Technology. The move comes amid increasing concern by US legislators over Chinese involvement in battery tech being provided to propel the country’s energy transition. Republicans Jason Smith, Cathy McMorris Rodgers and Mike Gallagher, who chair the Ways and Means,
Energy and Commerce and China select committees respectively, told Ford CEO Jim Farley in a letter on September 27 that he faced being called to testify before Congress if documents relating to the auto firm’s partnership with CATL were not produced. “Ford’s refusal to provide substantive responses… undermines Ford’s own commitment to ‘act with transparency, integrity, and honesty’ and raises serious concerns regarding its licensing agreement with CATL,” the letter said. In May, the US Department of Energy reversed its decision to award Microvast a $200 million grant to build a lithium ion battery separator plant, amid claims the company had links to China. Meanwhile, on October 3, Ford made a new offer in a bid to end an ongoing strike over pay and conditions by the United Auto Workers union. However, Ford said a dispute over battery plant projects remained unresolved. On September 25, Ford suspended work on an EV battery plant in Michigan, set to produce lithium iron phosphate batteries using CATL technology, citing concerns about being able to operate the plant competitively while contract negotiations continued.
The move comes amid increasing concern by US legislators over Chinese involvement in battery tech being provided to propel the country’s energy transition. www.energystoragejournal.com
Gore Street fund picks LSES for California BESS LS Energy Solutions is to provide the battery tech for the Gore Street Energy Storage Fund’s 200MW/400MWh BESS in California’s Imperial County. The so-called Big Rock lithium ion BESS is expected to provide resource adequacy and ancillary services to the California Independent System Operator market and improve grid reliability. The BESS will comprise 137 all-in-one AiON-ESS containers with a two-hour storage capability. Each of the modular storage units LS will supply will have a 1.5MW capacity and be able to store 3.5MWh of electricity, the companies said. The units, together with 1,300 LS modular 140 kVA AiON-SIS string inverters, will create one of
the largest energy storage installations in Imperial County, the partners said. In addition to supplying the AiON-ESS containers, LS also expects to provide commissioning support and operational services for the facility. The battery will be run at 100MW of deliverability to supply 400MWh to meet the four-hour discharge requirements under a resource adequacy contract. Gore Street acquired the Big Rock site in February 2023 from Avantus, which will continue to provide administrative and development services for the installation. Big Rock is Gore Street’s first project in California and its latest BESS investment after projects in Texas, Ireland, the UK and Germany.
KKR, Infracapital in $1bn deal for joint control of Zenobe Global investment firm KKR is acquiring joint control of UK-based Zenobe alongside existing investor Infracapital, in a deal that values the business at around £900 million ($1.1 billion). Zenobe, an international EV fleet and battery storage specialist, confirmed on September 7 it had secured a £600 million equity boost from KKR, in addition to around £270 million from existing shareholder Infracapital. The companies did not disclose shareholding details, although unconfirmed reports suggested KKR’s stake would be around 45%. Jera and Tepco Power Grid will remain as mi-
nority shareholders after completion of the deal, which is subject to various regulatory approvals. Zenobe said the move will enable the firm to speed-up the design and construction of two additional battery storage sites across Scotland. It will also enable the extension in capacity of a BESS already being developed in Scotland, which will support the integration of wind power into the grid and Zenobe’s target to commission about 1.2GW of storage in the UK by 2026. The investments will also back the firm’s target to develop an additional 2.5GW of BESS facilities in North America and Australia by 2030.
Energy Storage Journal • Winter 2023/2024 • 25
NEWS
GM pushes $60m funding round Mitras’ iron-based cathodes Mitra Future Technologies said on August 16 it will step up its development of iron-based cathode battery materials following a $40 million first close of a $60 million series ‘B’ funding round led by General Motors. Mitra said the invest-
ment boost will spur plans to commercialize US-made iron-based cathode active materials such as lithium manganese iron phosphate (LMFP) and support development of EV batteries compatible with GM’s Ultium battery architecture. The use of AI to test thou-
sands of new cathode designs each month enables Mitra to benefit from a lab-to-market development timeline that is 90% faster than competitors, the Californian start-up claims. Mitra said its tech also has the potential to “help shape the future of battery energy
HSBC pledges $1bn for ESS, in climate tech start-ups HSBC is pledging a $1 billion global investment package to support start-up firms with projects such as battery storage and EV charging infrastructure. The banking giant said on September 20 it aims to support new initiatives including sustainable food and agriculture and carbon
removal technologies. HSBC’s $1 billion allocation plans to focus on high potential climate tech companies, supporting earlystage firms and providing capital for first-of-a-kind demonstration projects — including through its $100 million investment in Breakthrough Energy
Catalyst, whose partners include Microsoft and BlackRock. The bank cited data published by Climate Tech VC indicating that, after successive rapid year-on-year growth, venture capital funding for climate startups plunged by 40% in the first half of 2023.
storage” with a focus on USbased production. Iron-based cathodes are Mitra’s first product category and offer a shift away from the use of elements such as nickel and cobalt that face “imminent supply crunches”, the company says. GM’s vice president for technology acceleration commercialization Gil Golan said its backing would speed up the auto giant’s work on battery chemistries such as LMFP and support moves to establish a North America-focused battery supply chain. Other companies supporting the funding round included existing investor Earthshot Ventures and new backers such as GS Futures and Bricks Capital Management.
Morrow launches €70m fresh capital to spur production Morrow Batteries said on September 22 it was raising up to €70 million ($74 million) in new capital as it moves toward commercial production. The Norwegian firm’s first gigawatt-hour LNMO battery cells factory in Arendal should start up early next year. Morrow said the private placement boost, guaranteed by the company’s largest owners, will be raised in two tranches and spur further development. Major shareholders Å Energi, PKA, Siemens Financial Services, ABB and Nysnø guaranteed the private placement, part of which will support completion of the firm’s Morrow Industrialization Center. Morrow’s board gave the go-ahead for the first tranche on September 22 and should approve the second tranche this autumn.
CEO Lars Christian Bacher said: “Building a strategic and competitive new industry is capitalintensive and will not succeed without publicprivate collaboration.” Energy Storage Journal reported in May that Mor-
row had agreed a loan of NOK567 million ($53 million) to support development of its battery cells projects at Arendal. Morrow said in July it had achieved an 86% yield of battery cells production at its customer qualifica-
tion plant in South Korea just four months after opening. Last month, Morrow announced a partnership with Gamma Technologies to use virtual systems in the development of cells tech.
Questions over Savannah sale of Portugal’s Barosso lithium project Lithium developer Savannah Resources has rejected reports that its Portugal project is up for sale — raising concern about securing a domestic battery materials supply in Europe. Savannah chairman Matthew King said on September 29 the company is drawing up a shortlist of “potential strategic partners from across the lithium value chain” to invest in the Barroso Lithium Project.
26 • Energy Storage Journal • Winter 2023/2024
Savannah is focused on finding investors willing to support Barosso’s construction “and bring complementary skills or additional opportunities to a long-term partnership”. But one industry analyst told Energy Storage Journal that the move would heighten concern among EU leaders that the project could attract Asian battery manufacturers — leading to offtake deals that could hurt Europe’s
plans for a home-grown supply of battery materials. Savannah says latest data shows Barosso has sufficient lithium production to support production of about 500,000 EV battery packs annually. A study in August said the EU could see lithium ion battery recycling become a profitable business before 2035, but the sector would need greater investment to get there.
www.energystoragejournal.com
NEWS
Ford, Korean firms, Quebec CAM project wins Canada funding A consortium of Ford and two South Korean companies are to build a C$1.2 billion ($886 million) EV battery materials plant in Canada, backed by federal and provincial governments. Ford, cathode active materials firm EcoProBM and battery maker SK On said on August 17 the Quebec facility, which would start operations in the first half of 2026, will produce an average of 45,000 tonnes of cathode active material (CAM) annually for future Ford EV batteries.
The federal government is providing a conditional contribution of C$322 million while the provincial government of Quebec will issue a partially forgivable loan of C$322 million through its Investissement Québec investment agency. Construction has begun on the 280,000m2 site which, in addition to creating 345 jobs, will offer co-op positions for university and college students. EcoPro CAM Canada — set up in February by the joint venture part-
ners — will produce CAM and high quality NCM for rechargeable batteries, which the firms say will target increased performance and range compared to existing batteries. Ford and SK On will formally become investors in the joint venture on completion of the Canadian financing and subject to various regulatory approvals. EcoProBM will oversee the day-to-day operations of the plant which will deploy EcoPro’s core shell gradient technology — a
high-nickel concentration gradient-type NCM cathode material said to improve structural stability. Ford Canada president and CEO Bev Goodman said the deal represented the auto firm’s first such investment in Quebec. The Quebec announcement comes just weeks after Stellantis and LG Energy Solution resumed construction of their NextStar Energy EV battery plant in Ontario after being awarded tax breaks deal worth up to C$15 billion.
LGES in $3bn Michigan investment boost in Toyota batteries deal LG Energy Solution said on October 5 it is investing around $3 billion to expand battery production at its Michigan plant to support a new landmark supply deal for Toyota electric vehicles. LGES is to provide 20GWh annually of its high-nickel NCMA long cell pouch-type batteries starting in 2025. LGES will build new production lines for battery cells and modules at the Holland, Michigan facility exclusively for Toyota — following what the South Korea-based battery maker said is its largest single supply agreement outside of joint venture deals. An LGES spokesperson told Energy Storage Journal on October 10 the new financial commitment is in addition to the $1.7 billion already pledged for the expansion of the battery plant in Holland, Michigan. In May, LGES held a topping out ceremony marking the completion of the structural steel framework for the expanded section of the plant.
www.energystoragejournal.com
LGES’s current annual production capacity at the site is 5GWh and will increase to 25GWh when the expansion is finished next year and mass production starts in 2025, the spokesperson said. LGES has a total of eight
battery manufacturing facilities either operating or under construction in North America. Toyota Motor North America president and CEO Tetsuo Ogawa said securing supplies at scale of lithium battery tech was key to the
auto giant’s expansion of its electric vehicles production and sales across the region. Energy Storage Journal recently LGES raised $1bn through its first global green bond issue, to be invested in its global battery production facilities.
LGES to invest $1bn green bond proceeds in global battery network LG Energy Solution has raised $1bn through its first global green bond issue which will be invested in its global battery production facilities. The South Korea-based manufacturer said on September 19 proceeds derived from the issue will support corporate environmental responsibilities and R&D that contributes to sustainable development. LGES said the issue comprises a $400 million threeyear bond and a $600 million five-year bond. The three-year bond was issued at 100 basis points
above the yield of US threeyear treasury notes, with the five-year at 130 basis points above the yield of US five-year treasuries. The company said it attracted orders from 114 institutional investors on its three-year bond and 186 on its five-year bond, with the total order reaching five times the issuance size. As of last June, LGES said its overall total order backlog amounted to KRW440 trillion ($331 billion) as of June 2023. In April, South Korea’s government launched a multibillion dollar program
to defend and expand its battery industry amid fears lucrative US tax breaks and incentives are tipping the global battery trade balance stateside. The government later designated one of the country’s key industrial sites to fast track investment to develop a secondary battery enterprise zone. In July, LGES and Stellantis resumed construction of their NextStar Energy EV battery plant in Canada under a deal worth up to C$15 billion ($11.4 billion) in tax breaks for the project.
Energy Storage Journal • Winter 2023/2024 • 27
COVERSTORY: STORY:HYBRID HYBRIDBATTERY BATTERYCOMBINATIONS COMBINATIONS COVER
The secret is in the blend It’s the ultimate mix and match. Combine the strengths of two battery technologies and perhaps, just perhaps, you’ll get something better than both of them. Sara Verbruggen reports. Greater than the sum of its parts. That’s the idea behind the latest thinking in battery development. Add one lithium battery — in the right way — to one lead battery and you could have a battery capable of superior performance compared with a single product. And it doesn’t have to be lead and lithium, it could be lithium and flow batteries, supercaps and lead, and even a mix of lithium chemistries. Over the past decade or so these hybrid batteries have been the subject of research projects, the occasional demonstration or pilot but have failed
28 • Energy Storage Journal • Winter 2023/2024
to find a commercial foothold in the market. The lead acid battery-supercapacitor combination, the UltraBattery, for example promised a lot but, in the end, failed to deliver. That said recent efforts look more promising with products beginning to gain some commercial traction. Different battery chemistries have different characteristics in terms of different power ratings for example. In many use cases a battery based on one chemistry will suffice. “But where you have more complex requirements in terms of the battery’s function or performance such as an
application that requires peak shaving as well as fast response then a single chemistry might not yield optimal performance,” says GS Yuasa’s senior technical co-ordinator, Peter Stevenson. Applications and use cases The cost of battery energy storage varies with its discharge rate. For instance, lead acid is suited to long duration energy storage and lithium is suited for short duration peak power. Combining different battery chemistries or storage technologies can optimize the total cost of ownership.
www.energystoragejournal.com
COVER COVERSTORY: STORY:HYBRID HYBRIDBATTERY BATTERYCOMBINATIONS COMBINATIONS
In the case of lead acid and lithium ion combinations, evidence shows that dual chemistry supports lead acid longevity in cycling applications, according to Michael Glenn, principal technical development officer, at Battery Energy Power Solutions in Sydney, Australia. “In an off-grid setting, this has been shown to abate reliance on diesel gensets, thus, lowering both operational expenditure and carbon dioxide emissions.” Battery Energy has paired its gel lead acid chemistry with lithium iron phosphate batteries. “Our gel was selected for its proven long life and LFP for its superior safety compared to other lithium chemistries,” Glenn says. GS Yuasa’s first dual chemistry BESS, demonstrates this. It’s lead acid and lithium ion hybrid deployed at its factory in Wales, is a 100kW system that has been in operation since 2018. It is used for peak shaving to reduce the factory’s load on the grid. “The lithium ion component’s capacity is more than 95% and the lead acid component’s is just below 90%.
www.energystoragejournal.com
“Where you have more complex requirements in terms of the battery’s function or performance such as an application that requires peak shaving as well as fast response then a single chemistry might not yield optimal performance.” — Peter Stevenson, GS Yuasa Energy Storage Journal • Winter 2023/2024 • 29
COVER STORY: HYBRID BATTERY COMBINATIONS The battery is behaving as we expected it to,” Stevenson says. The company installed its second lead acid-lithium ion battery in 2022 at its plant in Ebbw Vale, Wales, where it forms part of a microgrid that comprises a rooftop solar PV array. The battery is used for peak shaving and is able to store solar generated during the day to use later. At the Royal Mint’s Energy Centre in Llantrisant, Wales, a 200kW dual chemistry battery has been in operation since July this year. The lithium ion component’s capacity is 150kWh and the lead acid’s is 500kWh. Battery Energy’s lead gel-LFP combined battery is aimed at cost optimized energy storage systems, where the LFP services short duration power peaks and lead gel provides long duration reserve energy. “This is ideally suited to ad hoc demands necessitating both short and long-duration energy storage,” says Glenn. One application he talks about is telecom battery storage systems capable of also managing grid energy demands. “Telecom batteries provide reserve power in the event of an outage. In aggregate, many gigawatt-hours’ of lead acid telecom batteries are installed globally and so these could be
“Energy transferred from lithium to lead via a circulating current is effective at converting hard sulfate crystals and maintaining capacity, extending lead battery life.” — Michael Glenn, Battery Energy Power Solutions 30 • Energy Storage Journal • Winter 2023/2024
used to manage grid energy demands and be paid for doing so. “In this case, the dual chemistry provides a solution. Energy transferred from lithium to lead via a circulating current is effective at converting hard sulphate crystals and maintaining capacfy, extending lead battery life,” Glenn says. Technical considerations and challenges “There have been projects in the past and these were described as hybrids because they used two different batteries or storage devices in a system. But they were essentially separate because they were connected only on the AC side,” says Stevenson. GS Yuasa’s battery connects both the lead acid and the lithium ion batteries DC-to-DC, requiring only one power conversion system instead of two. Stevenson says: “When we developed the concept we had to be aware of two main issues or challenges when connecting terminals of lithium and lead acid batteries. One was around voltage and the other around current. “You can’t connect at the individual cell level because of the different voltages. Instead, you have strings of cells of lead acid and lithium ion so you can establish an overlap between the two, so that you can select the right number of lithium ion and lead acid cells with the same voltage.” The two different battery chemistries will accept, or give, current at two different levels, so GS Yuasa had to size the batteries to avoid over-current during charging and discharging. “Because GS-Yuasa’s LIM series of lithium ion batteries can operate at much higher currents than typical lithium ion storage cells — 6C versus 1C — it is possible to store most energy in low cost lead acid cells with a small lithium ion capacity providing the operational flexibility of dual chemistry systems,” Stevenson says. In Battery Energy’s approach, circulating currents between the two chemistries was an important technical consideration. “This is where one chemistry charges or discharges into the other at rest. Fortunately, we found that the energy transfer from lead to lithium is minimal at the bottom-of-charge. “This ensures that the lead acid chemistry is not over-discharged. It is also critical to set the nominal voltage of both chemistry strings, this requires connecting the correct number of cells in series,” says Glenn.
The Future Electric Vehicle Energy networks supporting Renewables (FEVER) project, will decouple EV charging demand from the UK electricity grid, by enabling 100% renewable energy to be used through a hybrid energy storage system, located at the FEVER charging station — Andrew Cruden, Southampton University Both battery chemistries in Battery Energy’s solution charge from a common bus voltage, hence, no electronic control is required, for example a DCto-DC converter. The company has also adapted the charge protocol from a lead acid remote area power system. The LFP chemistry’s battery management system required for protection did not require any bespoke modifications to facilitate dual chemistry operation. Commercial progress Having obtained valuable insights from both laboratory testing and field trials Battery Energy is working with clients to develop commercial lead gelLFP products based upon their specific requirements. Rollout is scheduled to start from the first quarter of 2024. Dual chemistry batteries are not applicable for more standard or straightforward applications. GS Yuasa works with customers to identify which type
www.energystoragejournal.com
COVER STORY: HYBRID BATTERY COMBINATIONS of battery technology works best for their use case’s requirements and in certain cases these might benefit from a dual chemistry battery as opposed to a lead acid or a lithium ion. Following the installation at the Royal Mint, GS Yuasa’s dual chemistry battery will be deployed as part of commercial electric vehicle chargers designed to operate as off-grid, circumventing the need for a grid connection, (since these can take years to obtain). The Future Electric Vehicle Energy networks supporting Renewables (FEVER) project, which involves four UK universities (Surrey, Sheffield, Southampton and Portsmouth), will decouple EV charging demand from the UK electricity grid, by enabling 100% renewable energy to be used through a hybrid energy storage system, located at the FEVER charging station. The hybrid storage system acts as the buffer between the variable renewable energy generator and regular EV charging demand. Stevenson says: “Our dual chemistry battery will be able to both accumulate energy slowly, thanks to the lead acid component, while recharging EVs quickly, due to the lithium ion. There is the potential for such infrastructure at local authorities to recharge EV fleets.” Andrew Cruden principal investigator of the FEVER project, and professor at Southampton University’s School of Engineering, says: “We will use GS Yuasa’s dual chemistry Pb-acid/Li-ion battery system in the FEVER demonstrators, in addition to our continuing research and laboratory system we have.” Location and timings of the demonstrators are still being discussed and negotiated at present, he says. One of the potential advantages of using the dual chemistry within the off-grid EV charging infrastructure is that the combination reduces the amount of time the chargers would have to operate for. Lead acid alone would require between nine to 12 hours of charging, whereas the lithium ion can absorb electricity far more quickly, enabling
LITHIUM BATTERY SHALL SPEAK UNTO LITHIUM Mixing lithium chemistries inside other lithium packs has also proved there is the potential for other mix-and-max synergies. ONE’s (Our Next Energy’s) dualchemistry architecture, Gemini, combines LFP and anode-free chemistries into one battery pack, enabled by the company’s proprietary DC-DC converter. In an EV the LFP cell powers the motor and meets the demands of daily driving, achieving a range of 150 miles on a charge. Then the Gemini battery switches to the anode-free cell, using it to charge the LFP cell, providing an additional 450 miles of range. The battery combining the two cells will deliver more than 600 miles on a single charge. ONE’s first-generation 1007 Wh/L LFP-anode free cell eliminates the need for graphite and anode manufacturing equipment, reducing production costs to $50/ kWh cell cost at scale, according to the firm. Volume production is slated for 2026. In February this year ONE took this further with the announcement of its new product called Aries Grid, a LFP utility-scale battery system that can serve as longduration energy storage. The firm says that Aries Grid will be offered in 2-, 3-, and 6-MWh the charger to be switched off so that it is not using energy to run. This can then feed the energy over time into the lead acid battery which has more storage capacity. Hybrids harnessing VRFB The Energy Superhub Oxford (ESO) which combines a 50MW lithium ion battery from Wartsila with a 2MW vanadium redox flow battery from Invinity went live in 2022, testament to the perseverance by the project’s various partners who experienced additional challenges during Covid-19. The objective of the hybrid battery
Following the installation at the Royal Mint, GS Yuasa’s dual chemistry battery will be deployed as part of commercial electric vehicle chargers designed to operate as off-grid, circumventing the need for a grid connection. www.energystoragejournal.com
modular units that allow for system customization. The lithium-ion energy storage system uses an LFP cathode chemistry that is more durable and has double the lifetime energy throughput of the nickel, cobalt and manganese chemistries which make up most commercially available stationary energy storage systems in the US. “With discharge times ranging from four to 12 hours, Aries Grid can create a renewable microgrid that provides 24x7 firm capacity baseload to power factories, data centers and communities,” says a ONE statement. Chinese EV brand NIO has developed a 75kWh cell-to-pack battery that comprises LFP and nickel cobalt manganese cells. Advantages of the hybrid battery are that higher energy densities are achieved, thanks to NCM cells, as well as improved performance in colder temperatures. An algorithm controls the performance of the NCM and the LFP cells to improve the low-temperature energy efficiency of the whole battery system, resulting in improved range in cold weather.
SODIUM AND LITHIUM HYBRIDS TOO CATL, a producer of lithium ion cells based on LFP chemistry and sodium ion cells, developed its AB Battery System Solution to mix and match sodium ion and lithium ion batteries and integrate them into one battery system, controlled via a BMS algorithm. The AB system compensates for the current energy-density shortage of the sodium-ion batteries, while maximising its high power advantages in low temperatures. According to 36Kr Holdings, Chery Automobile will use a sodium-ion and lithium ion hybrid battery from CATL in its new automotive iCAR brand.
Energy Storage Journal • Winter 2023/2024 • 31
COVER STORY: HYBRID BATTERY COMBINATIONS was to investigate the possible benefits, or otherwise, of operating the two different chemistries together in the provision of frequency response services. According to the project’s annual report published last year, due to the delays in gaining approval to operate the overall hybrid battery in the frequency response markets, “it has not been possible within the ESO project timescale to commercially operate the total system together and hence evaluate the potential benefits. “This work will continue beyond the project end date, and EDF Renewables together with Habitat Energy will find the optimum operating balance across both systems.” According to EDF Renewables, a final round of testing by the National Grid was completed in September 2023 and the hybrid battery is now operating in the grid services market. It is too early to give details on combined performance of the lithium/flow hybrid in the grid services markets at this point. EDF Renewables is now beginning to operate the battery as a hybrid in these markets alongside trading in the electricity markets, the company confirmed. A spokesperson at the company says: “The key challenges were in development and delivery of what was in effect a new flow battery product, so inevitably there were development and manufacturing challenges during the construction process. “The other key challenge has been the integration of the batteries with the overall battery management system to enable full provision of the combined system.” Because true hybrid operation has only recently begun, it is too early to say whether the overall economics of the system will be improved. “But as flow batteries become more established and costs reduce, the hybrid combination could deliver additional benefits, potentially through reducing the cycling load on the lithium battery and extending its lifetime,” says the. Combining VRFBs and supercapacitors In the EU project Hyflow, Fraunhofer Institute for Chemical Technology. Karlsruhe Institute of Technology and German power controls specialist Freqcon have worked on a hybrid storage demonstrator designed to provide virtual inertia. The Hyflow project has been working towards demonstrating a 1MW super-
32 • Energy Storage Journal • Winter 2023/2024
“There are some applications, where hybrid storage is the only viable solution. The biggest commercial potential for hybrid energy storage might look like niche applications at first first glance, but they can be profitable.” — Peter Fischer, Fraunhofer capacitor module, provided by Freqcon, coupled with a 300kW/1.5MWh vanadium redox flow battery module built by Fraunhofer ICT, using stacks from J Schmalz and controls from Siemens. The hybrid forms part of a system that also comprises an 800V DC-link, which is connected to the DC-intermittent circuit (>1000V) of a 2MW wind turbine. The demonstrator has been installed at Fraunhofer ICT’s premises. A 675kW solar photovoltaic array field has also been connected to the 800V DC-link, with KIT providing the fast control. The system will be put into operation in the near future, pending activity by Siemens and Freqcon. Peter Fischer, group leader of the Redox Flow Battery Group at the Applied Electrochemistry Department at Fraunhofer ICT says applications where a hybrid storage system or hybrid battery can add extra value include the need to transform large power spikes into longer low energy operations or vice versa. He refers to both small-scale implementations, for example elevators, as well as on a larger scale, such as large machines with electrical motors or motors with starters in some types of production lines.
Eyeing niches Fischer says: “There are some applications, where hybrid storage is the only viable solution. The biggest commercial potential for hybrid energy storage might look like niche applications on the first glance, but they can be profitable. “For example, in UPS applications which operate on all time-spans, especially larger UPS applications for critical infrastructure. Fraunhofer ICT published on this topic around six years ago, where we also coupled an VRFB with a supercapacitor, successfully showing that such a hybrid system serves all time spans. This is interesting for military or data centres which require a high degree of availability.” Another application is providing momentary reserve plus “grid shaping” capabilities. especially on islands or weak grids mainly based on renewables. “You will need a very dynamic power component and a very long duration energy component. This is one of the few applications, which are useful in the grid,” he says. Another application, Fischer describes, is to enhance or extend the life time of hydropower plants, where a flow battery can be deployed to prevent wear from fast switching Francis Turbines. “Or to support storage systems with less dynamic behaviours, like an electrolyser or sodium sulphur battery, to guarantee steady operation in a more dynamical off-grid or weak grid situation.” Technical considerations The energy management system has to be adjusted to the storage requirements of the individual storage device, in this instance the VRFB and the supercapacitor, according to Fischer. Discussing dual chemistry and hybrid storage devices more generally, he thinks these will be enhanced in time as the availability of DC components, like bidirectional DC-DC-converters, bidirectional DC-AC converters, contactors and DC-switches increases and improves, with their cost coming down too. “We are already seeing how growth in electromobility and electric vehicles already has increased the availability of some of these components compared with a few years ago, but I’m sure we will see more manufacturers for these components soon,” Fischer says.
www.energystoragejournal.com
COVER STORY: HYBRID BATTERY COMBINATIONS Next steps The commercial potential for hybrid, or dual chemistry, batteries is still debatable. One commentator blamed the stuffiness of both the lead and lithium industries in not investigating earlier the potential hybrids can offer. “From one side, until perhaps six or seven years ago, the lead industry was on the defensive about cosying up to lithium battery manufacturers. They were either defensive or just didn’t want to know. “From the lithium side, unfortunately their prejudices against lead — the constant bleating that it’s a sunset industry with a sunset technology — are entrenched. Their vision of themselves as being on the cutting edge and denial of lead’s possibilities is a blockage to advancement.” He points to the fact that some OEMs — Tesla being a prime example — are trying to eliminate even the small standby power lead battery in EVs despite their suitability for the job as well as their price. The one example of a commercial hybrid storage device — the UltraBattery — was mothballed four years ago by East Penn, which owns the IP through its acquisition of Ecoult, an Australian spin out from CSIRO. The technology, once touted as a potential game-changer in providing an alternative to lithium batteries had to contend with a market where lithium ion very quickly came to dominate grid storage. When it comes to dual chemistry batteries Glenn says that many ask “why?” adding that in many cases a single chemistry is the best option. “However, dual chemistry demonstrates its value when the goal is to maximise the utility of a single battery asset,” he says. According to EDF Renewables the commercial potential for hybrid systems, combining VRFB with lithium is unknown for the moment, as it is still early days. “As flow batteries become more established and costs reduce, the hybrid combination could deliver additional benefits, potentially through reducing the cycling load on the lithium ion battery and extending its lifetime,” the company spokesperson said. Glenn thinks hybrid chemistry batteries have the potential to be highly disruptive in niche sectors. Driving this are clients wanting several applications from a single installation. “For instance, a battery that main-
www.energystoragejournal.com
“From the lithium side, unfortunately their prejudices against lead — the constant bleating that it’s a sunset industry with a sunset technology — are entrenched. It’s a blockage to advancement and stupid to boot.” tains a certain reserve capacity and can also cycle daily, ad hoc loads, both short duration power bursts and long duration autonomy, and so on. In my estimation, hybrid battery chemistries will play a prominent role in future.” Longer term Fischer sees positive prospects for hybrid batteries. “In most demanding grid situations a short duration storage system alone can do the job and this will be favoured at
current levelized cost of storage. “But, as the LCoS reduces and as more renewables are integrated into the grid, hybrid storage systems will offer added value and also help to increase life time and resilience of the storage system, as the dynamics can be covered by the hybrid system more effectively than by a single technology, helping the energy component provide reliability and duration.”
REACHING THE MAXIMUM FOR THE MIX The EU-funded EMMUseBat project, running until 2024, explores various aspects around the operation of a real large-scale battery system, based on five different technologies — two lead and three lithium. These were first tested in the M5BAT project, which completed in 2018. EMMUseBAT is investigating the aging behaviour of batteries as a result of their operation and participation in Germany’s grid. Partners will create and evaluate a platform for the development and testing of new energy management algorithms for large-scale battery systems in various markets and applications. This includes developing a digital twin of the system control of the 5MW hybrid battery developed in M5BAT. Lucas Koltermann, a research associate at RWTH Aachen
University, says: “M5BAT helped us to understand how to use the advantages of different battery technologies and it also taught us also how to fix issues concerning communication protocols, different cell and BMS behaviour and also to understand the limits of the different batteries.” He says the hybrid approach is interesting for the future, but not with five different battery types. “The effort and knowledge required for a hybrid storage system based on any more than two chemistries or technologies is too extensive, negating any advantages.” He says the design and layout of hybrid, or dual chemistry, batteries depends on the application, or use case and ultimately optimizing the hybrid battery for that particular application.
“The effort and knowledge required for a hybrid storage system based on any more than two chemistries or technologies is too extensive, negating any advantages.” — Lucas Koltermann, Aachen University
Energy Storage Journal • Winter 2023/2024 • 33
NUCLEAR MAGNETIC RESONANCE Joerg Koehler, Alain Belguise, and Oliver Pecher explain how defining and understanding the electrochemistry of future batteries is enabled by NMR and how it will improve production efficiency and lithium battery manufacture.
NMR offers gateway to better lithium battery understanding Nuclear magnetic resonance is a longestablished technology in medical and clinical research. The analytical power of NMR is now being used in pioneering basic research and product innovation in materials science to investigate the development and design of novel
devices for energy production, storage and conversion. Techniques such as electron and optical microscopy offer high resolution imaging of the materials but are often limited to surface imaging and are difficult to interpret quantitatively.
Preventing dendrite formation is an under-researched field. NMR allows separation and quantitative identification of many aspects of the layer.
Intensity [a.u.]
Mossy Lithium
Bulk Lithium
338.2
338.4
338.6
338.8
B-field [mT]
Image 1: Different lithium morphologies detected with a Bruker E540 ELEXSYS X-band spectrometer equipped with a 4108 TMHS resonator. Top: mossy lithium (green). Bottom: bulk lithium (black). Adapted from the following reference, in accordance with Creative Commons Attribution 4.0 International License: Niemöller A, Jakes P, Eichel RA and Granwehr J (2018) EPR imaging of metallic lithium and its application to dendrite localisation in battery separators, Scientific Reports, 8:14331.
34 • Energy Storage Journal • Winter 2023/2024
NMR and electron paramagnetic resonance (EPR) spectroscopies are non-invasive methods with quantitative and structural capabilities, and research is continuing to improve sensitivity and increase resolution. NMR methodologies are being used at the University of Cambridge in research and development to monitor structural changes that occur during the operation of a battery, to investigate the effect of rapid charging and cycling of the battery. One recent paper considers how the chemical and electrochemical reactions at the positive electrode-electrolyte interface in Li-ion batteries influence cycle life and safety. The electrolyte was analyzed by solution NMR spectroscopy to identify any soluble decomposition products formed. NMR spectroscopy can be used to reveal structural details, such as electronic structure, to study dynamics in battery materials, including possible alternative electrode materials and electrolyte components, such as Li salts, solvents and additives, and solid forms. Improving a lithium ion battery’s internal resistance by increasing target ion mobility can enhance its performance, which depends on the mobility of the ions in the battery’s ionic liquid. Pulsed gradient spin echo (PGSE) NMR can be used to investigate resistance by measuring the mobility of different ions separately, independently and in situ, and by measuring the diffusivity of different nuclei, including three different molecular species such as 1H, 19F and 7Li, over a wide range of temperatures. Analysis by NMR has grown our understanding of the processes that impact the critical solid–electrolyte
www.energystoragejournal.com
NUCLEAR MAGNETIC RESONANCE Improving a lithium ion battery’s internal resistance by increasing target ion mobility can enhance its performance, which depends on the mobility of the ions in the battery’s ionic liquid.
interphase and dendrite formation during the first charge of a lithium ion battery. The formation of a stable SEI determines many parameters that impact the performance and longevity of a battery. During charging, when Li ions move towards the anode, they may undergo plating, leading to the formation of dendrites, which can cause the battery to short-circuit and catch fire. Preventing dendrite formation is an under-researched field. NMR allows separation and quantitative identification of many aspects of the layer. For example, 7Li and 19F magic angle spinning, known as MAS, NMR enables the identification and quantification of lithium fluoride in the SEI at anodes and electrodes. Changes in the intensity of the Li
peak during cycling can be correlated with the growth of dendritic microstructures versus smoothly deposited metal. One study found that in situ NMR could determine that up to 90% of lithium deposited during a slow charge of a Li/LiCoO2 battery was dendritic. The technique can also be used to test methods to prevent dendrite formation, including electrolyte additives, advanced separators, cell pressure, temperature, and electrochemical cycling conditions. The benefits of NMR in researching new battery materials and performance are increasingly recognized. Future applications could also include studying lithium ion battery capacity fade, examining cells after a large number of cycles, and high stress and accelerated aging testing.
Image 2: Series of magnetic field maps taken at intervals during discharge and then charge of the cell. The plots are labelled by the discharge capacity of the cell at each step. The magnetic field maps are referenced to the field map produced by the fully charged cell. Reproduced from the following reference, in accordance with Creative Commons Attribution 4.0 International License: 11. Ilott AJ, Mohammadi M, Schauerman CM, Ganter MJ and Jerschow A (2018) Rechargeable lithium-ion cell state of charge and defect detection by in-situ inside-out magnetic resonance imaging, Nature Communications, 9: 1776.
Analysis by NMR has grown our understanding of the processes that impact the critical solid–electrolyte interphase and dendrite formation during the first charge of a lithium ion battery. www.energystoragejournal.com
TOWARDS THE BATTERIES OF THE FUTURE Solid-state battery technology is set to redefine the industry. Solid state batteries have a solid electrolyte compound that still allows the movement of Li-ions, replacing the liquid electrolyte. Although not a new concept, new solid electrolytes have been discovered that have high ionic conductivity, similar to liquid electrolyte. Because they are non-flammable when heated, solid state designs offer real safety improvements, and they permit the use of highvoltage, high-capacity materials that may overcome performance issues thought to be due to high internal resistance for Li-ion. The result can be a battery that offers significantly increased energy density and improved cycling performance. NMR also plays a key role in defining new electrochemical reactions for next generation chemical energy storage. The first market introduction of batterypowered electric vehicles powered by Na-Ion batteries in 2022 redefined the compromise between raw material availability and battery performance. Another example is Si-doped anode materials for extended storage capacity which will lead to less graphite demand in battery manufacturing. Defining and understanding the electrochemistry of future batteries is enabled by NMR. Derivatives of these research and development methods will bring NMR into battery manufacturing environments helping to improve production efficiency.
Written by: Joerg Koehler, head of Business Unit Industrial, Bruker BioSpin; Alain Belguise, head of Business Unit Academia, Bruker BioSpin; Oliver Pecher, CEO ePROBE
Energy Storage Journal • Winter 2023/2024 • 35
OPTIMISING BESS RUNNING COSTS Negative energy pricing has become a feature of European energy markets. Alastair Martin, founder of Flexitricity, examines how it has increased in frequency in markets and looks at the UK experience to show how organizations can make it work to their advantage.
Battery opportunities for businesses from negative energy pricing
Negative pricing occurs when demand for a product drops or supply increases to an extent that owners or suppliers are prepared to pay others to accept it — in effect setting the price to a negative number. Electricity consumption is driven partly by weather and partly by the clock and calendar. This complicates the lives of electricity providers. Nuclear operators, for example, have powerful technical and economic reasons for keeping the plants running at a constant output for weeks on end. These stations aren’t the best options for responding to changes in energy availability due to increased wind or sunshine. Storage offers a partial solution. However, in most countries energy storage options aren’t big enough to keep up with changing needs. National transmission networks and cross-border interconnectors may help smooth local variations across wider areas, but they have capacity limits.
Negative pricing, including “dayahead” and “same-day” wholesale exchanges, has become more common in the UK energy market. This July alone there were several negative pricing events, these tend to cluster around weekends. The EPEX hourly day-ahead market set a record low of -£70/MWh (-$90MWh), and at one stage, the intraday price fell to £-120 per megawatt hour. The benefits to businesses There’s a great deal to gain from negative pricing events for businesses that can alter when they consume energy or store it using batteries or heat buffers. Several methods can be used to turn this flexibility into revenue. These include accessing wholesale markets and the Balancing Mechanism directly, or using pass-through supply agreements to access cash-out prices. What we find is that electricity mar-
There’s a great deal to gain from negative pricing events for businesses that can alter when they consume energy or store it using batteries or heat buffers. 36 • Energy Storage Journal • Winter 2023/2024
kets span several timeframes, ranging from years ahead of consumption, to hours ahead, and even to real time. As negative pricing is usually down to a combination of inflexibility, weather and network issues, negative pricing is most common where markets have shorter timeframes such as day-ahead auctions, intraday markets and the Balancing Mechanism. At present, the UK electricity industry is undergoing successive regulatory changes which are intended to broaden access to flexibility markets generally, and negative prices specifically. For many organizations, possibly the biggest question is which of its energy assets could operate flexibly given the opportunity? BESS flexibility The most obvious candidate technology is through battery energy storage systems. The opportunity to be effectively paid twice from a single negative pricing event is compelling. This involves charging the battery while prices are negative, and discharging it when positive prices return. Batteries frequently also have the technical capability to access other revenues, such as frequency response. This allows them to seek the best
www.energystoragejournal.com
OPTIMISING BESS RUNNING COSTS value from market conditions at the time. Most won’t actually follow negative prices when there are more lucrative services available. Fleets of electric vehicles, often referred to as ‘batteries on wheels’, can give their operators the opportunity to exploit low or negative prices by choosing when to recharge. For optimum results, it’s best to use automated dispatch in response to fastmoving situations. Of course, any automation has to deliver a properly-charged fleet by the right time each morning. This is known as ‘smart charging’ among EV fleet operators. For other industrial and commercial energy users, processes such as cooling or heating that can be advanced or held back can deliver similar results. Removing size restrictions from these market opportunities has become a key goal. Making this a reality involves aggregating multiple assets into virtual power plants (VPP) that are large enough to make a difference to the grid or to a distribution network operator. It certainly pays to be flexible about flexibility, allowing different assets to be turned on and off, as long as they perform their intended functional purpose. Revenue generating opportunities It’s likely that the highest revenue opportunities will come about from dedicated energy assets with 24-hour availability. making BESS installations an ideal candidate. Industrial and commercial assets will generally have a ‘day job’ to be met before their auxiliary purpose in a flexibility strategy. Most organizations will tend to consider flexibility as an ad-hoc or part-time activity around normal business operations. Wherever possible, it pays to enhance available flexibility by investing in heat or cooling stores. An essential element of any strategy involves accessing as many markets as the asset is capable of participating in, collaborating with an energy flexibility provider who can take on the complex qualification, verification, risk management, dispatch and reporting processes involved. It’s also essential to be able to aggregate capability as most individual energy assets are too small to participate directly. A vital stage is to set appropriate limits and expectations on participation. It’s important to set parameters around temperatures, storage levels
www.energystoragejournal.com
WHAT IS NEGATIVE PRICING? Energy usually has a positive price. Energy generators sell to suppliers buying energy on behalf of customers. Systems operators make adjustments to balance prices based on demand and supply. Negative pricing kicks in when the system operator is forced to choose between paying generators to reduce or constrain production or paying customers to increase usage. When customers are more willing to use more available green energy, the less the system operator has to pay solar and wind farms to reduce output. In most cases, the cheaper
option involves paying customers to consume more. Negative energy pricing occurs when reduced electricity demand forced grid system operators to constrain their electricity generators that run on renewable sources of energy, like solar and wind. Dialling down green energy represents lost opportunity, and comes with a cost. Solar and wind farms generally work to an agreed price for their output. This cost needs to be covered even if there are instructions not to produce energy. Ultimately, driving prices below zero — hence negative energy pricing.
and BESS cycle limits. Where core business operations require it, the customer must have dynamic control over these parameters. Automation is the final stage. Optimizing value from negative prices and other fast-moving events is not a manual task. It’s important to work with an experienced flexibility partner with sound relationships across a wide range of different asset classes, including factories, greenhouses, BESS sites, cold stores and district energy. The approach may vary depending on the specific site, the goal has to be gaining operational access to all appropriate markets alongside all other assets.
A look to the future It’s likely that we will see more negative pricing events as variable renewable energy generation and the technical limits of nuclear energy grow. It can be seen as a natural consequence of inflexibility in the grid, on both the demand and production side. Negative pricing is far from an anomaly. As the grid transforms, the depth and duration of negative price events will change. Negative pricing is a signal to the market to invest in flexibility that makes best use of the energy resources that are compliant with net zero. By combining battery assets, smart electric vehicle charging and flexible business energy consumption, energy prices should come down overall.
Negative pricing in the real world Maximizing revenue from negative pricing requires any organization to be agile. For example, during the negative pricing events of July 2023, battery owners could charge their batteries while day-ahead prices were negative, then discharge them when they returned to positive pricing. Battery owners also generated additional revenue by providing frequency response services to National Grid Electricity System Operator (ESO). This type of grid flexibility service can be triggered in seconds or less, ensuring that the grid operating frequency stays within tight limits. Negative pricing provides financial incentives for organizations to support a net zero grid by encouraging the use of batteries and other flexible energy assets. Running energyconsuming processes during negative price events help to make use of available green energy.
MAKING IT WORK The 50MW, one-hour West Gourdie battery, owned by Foresight Group and operated by Flexitricity, was one of the top revenue earners on July 2 this year. As reported by Modo Energy: 83% of West Gourdie’s revenues came from Dynamic Containment — mostly the low-frequency service, where prices averaged £13/MW/hr. West Gourdie was able to stack trading actions to take advantage of negative prices. The system allowed for charging up during negative prices and discharge in the evening. This accounted for 17% of revenues. The system cycled approximately 0.9 times on the day
Energy Storage Journal • Winter 2023/2024 • 37
ABC PERSPECTIVES: FUTURE BATTERIES Ray Kubis, battery industry veteran and chairman of bipolar lead developer Gridtential offers his thoughts on the direction and shape of our future battery transportation needs as per part of this presentation given at ABC in Siem Reap.
Drivers for tomorrow’s battery energy world
The global lead-based battery industry has a sustainable, localized, low-cost supply chain and over 700GWh of capacity. This is large but this does not guarantee its future. Although, there have been incremental improvements with AGM, pure an Battery Conference, Cambodiaand 2023 carbon additives, lead designs there are only a handful of companies accepting the generational challenge needed for the industry to stretch the performance and life to levels needed to compete in the years ahead.
attery Conference, Cambodia 2023
Unless more companies move quick- our market. ly to advance lead batteries, even many First, high growth continues with of our leading companies will show the global transportation market for declines in future sales and earnings. batteries set to triple to 4.1TWh per Showing my bias, I am an investor in year and worth $521 billion by 2030. one lithium start-up driving for great- The big drivers are EVs, hybrids, and er safety and density. And to help meet LSEVs (low speed EVs worldwide) 2023 three or four wheels. the generational challenge, I continueSeptember with7,two, to invest in Gridtential, whose Silicon We are starting to see EV demand Joule technology combines treated growth rates moderate in some counsilicon wafers with lead for a higher tries as consumers consider affordabilperformance and life ity, charging and convenience across Here are some factors weighing on the broader customer base following the early EV adopters. Sales of lead batteries are forecast to grow at a 3% rate to $71 billion by 2030 as the higher mix of better designs needed by today’s vehicles to improve fuel efficiency and reduce emissions offsets some share loss in each transportation market segment to lithium batteries. Based on a recent survey, those AGM-based batteries support the highest growth platform for lead batSeptember 7, 2023 the stop/start function teries filling across the majority of OE (non-EV) new vehicles worldwide, and are increasing in the much larger replacement market.
Figure 1. Regulatory trends
Regulatory trends Mandates, regulations and incentives The mandates, regulations and common regulatory platform for all continue as a major driver for the elecincentives continue as a major driver for battery technologies which could remove trification trends across transportathe electrification trends across one of the clouds over the lead battery tion and other applications. (figure 1) transportation and other applications. industry. China’s policies have supported a dramatic growth in recent years for China’s policies have supported India’s EV market is largely about 2 and material processing, battery and vedramatic growth in recent years for 3 wheel vehicles supporting the wider hicle production, and incentives were material processing, battery and vehicle improvement in air quality across its very recently extended through 2025. With production, and incentives were recently large cities. And its FAME incentives intense local competition, China’s extended through 2025. With intense have led to an expanding deployment of makers are keen to export more batlocal competition, China’s makers are locally made ebikes, larger eScooters teries and EVs. now keen to export more batteries and and eRickshaws (or Tuk-Tuks). Europe’s EV mandates remain in EVs. place, yet a recent update in the reguFor the US, the key development has lation has created an exemption for Europe’s EV mandates remain in place, been the incentives contained in the IRA ICE vehicles that are powered by bioyet a recent update in the regulation has act in 2022 which has catalyzed huge fuels. created an exemption for ICE vehicles investments to localize battery supply 1 We must complement the EuroFigure 2. Methodology All transportation apps – ebikes to big trucks and buses that are powered by bio-fuels. chains and production. And we must complement the European
Energy Storage Journal • Winteris2023/2024 Let 38 me•explain how the forecast built Also shown is an SLI type battery Battery Association for a very positive with two examples. category, Heavy Duty Batteries for development to prospectively achieve a
www.energystoragejournal.com
ABC PERSPECTIVES: FUTURE BATTERIES pean Battery Association for managing to achieve a common regulatory platform for all battery technologies — something that could remove one of the clouds over the lead battery industry. India’s EV market is largely about two and three wheel vehicles supporting the wider improvement in air quality across its very large cities. The FAME incentives have led to an expanding deployment of locally made ebikes, larger eScooters and eRickshaws, commonly known as tuk-tuks). For the US, the key development has been the incentives contained in the IRA act in 2022 which has catalyzed huge investments to localize battery supply chains and production.
recovered with notably different costs depending on the location, geology, royalties and other factors.
NICHE MARKETS — AIRCRAFT, SHIPS TRAINS
Electricity demand Electricity demand is increasing everywhere from the combination of economic growth and the huge push for Each of these segments represent electrification of transportation. over $500m in batteries Though the growth of renewables worldwide today, and likely is helping, a huge share of electricity heading toward $1 billion by generation is still from coal ranging 2030 as each segment has an from one-fifth in the US to over twoincreasing trend to greater thirds in China and India. The houseelectrification in existing and new hold costs of electricity now range applications. from $.06/kWh in China up to over For aircraft, some companies $.50/kWh in Germany. have launched trial electric As costs will always matter to govvertical take off and landing ernments, businesses and households, vehicles (eVTOL) suitable for one has to be careful in assuming how short haul flights. Methodology much emission reductions will happen For ships, modest distance EV The forecast is built with two exam- in this aspirational change away from ferries can now re-charge often Asian BatteryitConference, Cambodia 2023 generation. ples. (figure 2). For EV light vehicles, low-cost baseload as quickly as the normal unload starts with the 8.1 million EVs in 2022 Many countries, including the US, and reload cycles. Italy is taking and the average kWh battery content are reducing the use of coal in generainitial hybrid electric trains where for the global sales that year, at an av- tion, yet for many reasons the use of batteries can bridge the network erage estimated cost per kWh. coal increased by 3.3% to 8.3 billion of overhead electric cables. Then this is extended to the forecast tonnes in 2022 according to the In31 million EVs by 2030, with now gternational Energy Agency. larger average battery packs and lower cost per kWh, following the huge surge in material costs in 2021, and the shift to lower cost, lower range LFP vs NMC batteries in the mix. Also shown is an SLI type battery category, Heavy Duty Batteries for trucks, buses, et al, with the estimated battery units sold in 2022 worldwide Asian Battery Cambodia 2023 along with a kWh content and Conference, cost, and then extended in the same way. With this format with insight on all segments from eBikes to Buses we arrive to forecast battery demand in energy content and value by 2030. Here, courtesy of CRU, are assumptions for battery metals and oil which impact the mix and cost of vehicles and batteries (figures 3 & 4). The stability in lead costs is aided by the huge recycling content of the global 13+Thanks to CRU, I am showing the million tonnes of lead consumed eachassumptions for battery metals and oil year. The lithium battery materials arewhich impact the mix and cost of forecast lower following the earliervehicles and batteries. dramatic price surges. Bloomberg has profiled the huge de-The stability in lead costs is aided by the mand for metals for lithium batterieshuge recycling content of the global 13+ through to 2030, which is 17 millionmillion metric tons of lead consumed tonnes of mostly mined materials. each year. Although there will be supply and demand variations in the short term,The lithium battery materials are now there appears to be sufficient materi-forecast lower following the earlier als in the ground and at the bottom ofdramatic price surges. the Pacific Ocean, as some are targeting to collect. It is important to recognize though that just like with oil, Figures 3 & 4. Assumptions on commodities and lithium usage the reserves of these metals will be Source: BloombergNEF, Bloomberg Professional services. Race to Net Zero (via DoE) July 2023 www.energystoragejournal.com
This is a brief from Bloomberg profiling the huge demand for metals for lithium batteries through to 2030, which is 17
September 7
Septem
It is important to recognize though that just like with oil, the reserves of these metals will be recovered with notably
Energy Storage Journal • Winter 2023/2024 • 39
ABC PERSPECTIVES: FUTURE BATTERIES
EVs, hybrids and trends Investment bank Morgan Stanley forecasts that 40% of all new vehicles will be EVs by 2030, and will cross the 50% mark in the 2032/2033 period. In China, there is tough competition from the very small $5,000 EVs from the Wuling mini, to BYD hybrids, and the larger vehicles including Tesla’s. Numerous price adjustments may lead to consolidation of the very high number of aspiring producers, concurrent with others’ efforts to export aggressively. Current trends — including small and large EVs and hybrids — indicate China will be the first major country to exceed 50% of new energy vehicles by 2030. In addition, with high forecast growth for exports, some forecast Chinese-made EVs will be over 50% of global EV sales by 2030. Renault with its Dacia brand, VW with its ID platform, and Mercedes with its premium offering have all brought appealing vehicles to their customer base aiding the progress of electrification of new vehicle EV sales to over 15% in 2022 in Europe. ian Battery Conference, Cambodia However, Tesla’s Berlin 2023 plant, and the notable entry of Chinese EV imports is presenting a tremendous challenge to legacy European vehicle producers, suppliers and surrounding industries. Tesla continues to lead the US market with about two-thirds EV market
Numerous price adjustments may lead to consolidation of the very high number of aspiring producers, concurrent with others’ efforts to export aggressively share of the 6% of new light vehicle sales in 2022. Ford has successfully promoted its eMustang and F-150 Lightning pick-up truck, and GM has launched its eSilverado, eHummer and eCadillac, all with large battery packs and premium pricing. Toyota‘s major US presence continues to be led by its diverse hybrid solutions, which were over 500,000 of its 2 million 2022 US shipments. The IRA legislation passed in 2022 has catalyzed new battery and EV vehicle investments across the US, The investment tax credits and loans to support EV battery and supply chain localization, along with consumer EV incentives is a major part of the $1 trillion plus in government support for climate change mitigation across the next 10 years. The largest markets Norway, one of the richest nations per capita, has led the world with EV penetration with a long list of EV preferences, and for 2022 EVs represented
79% of new vehicle sales. By contrast three other important economies, Japan, Brazil and South Africa all had less than 1% EVs in 2022, with different influences on local EV adoption. For Japan, one can argue they have led the world in CO2 vehicle-based emission reductions over the last 10 years with progressively higher penetration of very efficient hybrids. These reached 40% of vehicle sales in 2022. With South Africa’s continued challenges in electricity supply, it is understandable EV sales are quite low. India’s electrification in transportation to date is best illustrated by Hero, the market leader in motorcycles, and Mahindra, the leading local light vehiSeptember 7, 2023 cle maker. Hero has launched successful electric scooters and motorcycles. Mahindra, is building on the same platform as eRickshaws for personal transportation. Ola has raised and invested a lot money to support its all-electric future of two and four wheel vehicles
The US National Lab Argonne, puts the combined battery investment announcements increasing capacity by 20X to nearly 1 terawatt hour by 2030. This could power 10 to 13 million all EV light vehicles.
The IRA legislation passed in 2022 has catalyzed significant new battery and EV investments 40 vehicle • Energy Storage Journal • Winter across 2023/2024 the US
Shown is a summary from Argonne, one of the US National labs, which puts the combined battery investment www.energystoragejournal.com announcements increasing capacity by
ABC PERSPECTIVES: FUTURE BATTERIES supported by its own giga-factory for lithium batteries. India’s FAME subsidies have aided the ramp in these diverse electric vehicle sales, which also aids local pollution reduction in their very busy large cities from legacy small engine rickshaws or tuk-tuks.
and other LSEVs at 31%. Technology progress with lithium or lead batteries may change this, yet battery makers especially across Asia have a real opportunity for significant and/or expanding sales if they provide economical and better performing lead- based solutions.
A recent Gridtential survey showed a wide variety of battery business thought over the best markets for growth to 2030. Even by application there was a range from optimism to pessimism for relative growth, yet these five were the top areas for growth of lead batteries
The numbers The total transportation battery marFIVE OF THE MOST INFLUENTIAL COMPANIES ket is forecast to triple by 2030, and this is about 15% compounded annuIN THE ELECTRIFICATION OF LIGHT VEHICLES. ally combining lithium and lead solutions. • Tesla is broadening its product range, increasing capacity, and This splits to about 20% compound reducing costs and prices on the way to its targeted 10 million EVs. growth for lithium and 3% for revenue growth annually for lead based • BYD’s mix of EVs and Hybrids, aided by its strong battery batteries. background, is supporting its exports worldwide. (For clarity, fuel cell or sodium• VW is adding vehicle and battery partners to protect its global based solutions are not included here, market share, especially in its two largest markets in the EU and it is unlikely they will be significant in China. transportation applications to 2030.) Within the propulsion mix forecast, • Toyota keeps expanding its global hybrid leadership utilizing 31 million all electric light vehicles both lithium batteries and nickel-based bi-pole batteries, while Asianof Battery Cambodia 2023 Septembe by 2030 is about the middle otherConference,announcing EV plans based partly around its progress with solid forecasts state batteries. The EV propulsion batteries are a • GM has promised an all EV future built around its Ultium battery mix of different lithium batteries, the pack. low voltage auxiliary batteries required in EVs are still forecast to be mostly lead based solutions by 2030. I have included the range of hybrids with also stop/start vehicles to be 53 million or over half all new vehicles sold by 2030. (figure 5) The forecast noted for hybrids, especially the 48V so-called mild hybrids, represent another great opportunity for advanced lead batteries. Toyota, Kia and Honda lead with attractive hybrids today across many countries, and though there is a range of efficiency gains from different platSeptember 7 forms, let’s keep it simpleAsian andBattery sum-Conference, Cambodia 2023 marize the profile as 40/40/40 — over 40 mpg efficiency, 40+ miles of pure EV operation for 80% of most family trips, and <$40,000 cost. Recently some companies are chang- Figures 5. * Includes cars and light commercial, excludes LSEV’s ing their structures and forecasts for vehicle technology and supply. Four companies led by Renault have Within the propulsion mix forecast, I I have included the range of hybrids with announced a new alliance to combine believe the 31 million all electric light also stop/start vehicles to be 53 million a major share of their vehicle and vehicles by 2030 is about the middle of or over half all new vehicles sold by R&D efforts arounds more efficient other forecasts I have seen. 2030. ICE and hybrid vehicles globally. Ford also recently announced a reThe forecast noted for hybrids, duction of its mid-term EV outputThe EV propulsion batteries are a mix of especially the 48v so-called mild hybrids, and explained a strengthening of theirdifferent lithium batteries, the low voltage represent another great opportunity for hybrid offering to give customers aauxiliary batteries required in EVs are advanced lead batteries. broader choice for electrified vehicles.still forecast to be mostly lead based One takeaway from the split of thesolutions by 2030. lead-based transportation battery market by 2030 is the significance of the propulsion applications in eBikes
www.energystoragejournal.com
Energy Storage Journal • Winter 2023/2024 • 41
ABC PERSPECTIVES: FUTURE BATTERIES across all applications from transportation to so- called industrial markets, and the developing ESS markets. Beyond the stop/start market and LSEVs briefly covered already, the three others listed are buffering, data centers and behind-the-meter (BTM) ESS applications. BTM ESS apps were either renewable, generally solar paired solutions for businesses and homes, or the so-called micro-grids for communities. Vehicle makers increasing use of
sian Battery Conference, Cambodia 2023 stop/start technology.
Shown in this chart below are the shares of stop-start technology at the OE level currently, mostly using AGM batteries across the EU, China and the US. Though higher cost batteries, they
Battery Conference, Cambodia 2023
Vehicle makers keep increasing the utilization of stop/start technology. Shown here are the shares of stop-start technology at the OE level currently, mostly using AGM batteries across the EU, China and the US. Though higher cost batteries, they clearly reduce fuel consumption and emissions, and the demand is now increasing in the replacement market.
clearly reduce fuel consumption and Figure 6 is an example of the EV emissions, and the demand is now in- charge ‘buffering’ pilot for a fleet supcreasing in the replacement market. ported by a GS Yuasa lead battery at Considering these trends for stop/ an installation in central US. start, and other applications, it is fair to Buffering is a function where batsummarize that at a global level all the teries can help EV fast chargers or net growth is for AGM batteries, with commercial businesses use batteries flooded capacity moving to excess, to help avoid the generally expensive, needing to be re-purposed or closed in or unavailable peak or high current the years ahead. needs. OE vehicle makers would like smartData centers keep growing in size er batteries with individual cell moni- and number as growing demands for toring, and voltage flexibility to 12, 14 data processing and storage, and now 7, 2023AI applications, demand seto 48 volts for the increasing demandsSeptember booming across their vehicle designs. This in- cure power. cludes supporting the requirements for It is helpful also to split the increAdvanced Driver Assistance (ADAS) mental- type from the step-change imand Safety (ANSIL) applications and provements prospect. standards. There are many credible pathways for incremental improvements in lithium and lead based batteries, with many of them reflecting the cocktail mix for the electrodes with silicon for lithium and carbons for lead, among others. For lithium, true solid-state designs for a large energy pack is recognized by most as the best chanceSeptember to 7, 20 notably improve both safety and energy density in lithium batteries. And for lead based, bi-pole designs which by structure notably changes the performance, weight and life possibilities for lead electro-chemistry is the best opportunity recognized by many.
In, addition, OE vehicle makers have told us at Gridtential they would like both smarter batteries with individual cell monitoring, and voltage flexibility to 12, 14 to 48 volts for the increasing demands across their vehicle designs. This includes supporting the requirements for Advanced Driver Assistance (ADAS) and Safety (ANSIL) applications and standards.
Considering these trends for stop/start, and other applications, I believe it is fair to summarize that at a global level ALL the net growth is for AGM batteries, with flooded capacity moving to excess, needing to be re-purposed or closed in the years ahead. Figure 6. an example of the EV charge ‘buffering’ pilot for a fleet supported by a GS Yuasa lead battery at an installation in the Central US
These are the main points of a presentation given by Ray Kubis at the 20th Asian Battery Conference this September. A fuller version of the presentation including a discussion of the merits of bipolar lead batteries can be found by contacting Ray via Here iswww.gridtential.com an example of the EV charge
‘buffering’ pilot for a fleet supported by a GS Yuasa lead battery at an installation 42 Energy Storage Journal in •the Central US.• Winter 2023/2024
ay Kubis, Chair, Gridtential Energy, Inc.
27
www.energystoragejournal.com
EVENT REVIEW: BATTERY SHOW The Battery Show and Electric & Hybrid Vehicle Technology Expo 2023 Novi, Michigan, US * September 12-14, 2023
The battery event that just keeps growing It’s hard looking back at the Battery Show’s first event in Novi in 2012 — itself a relocation from a rather dismal launch in California 2011 — to remember quite why the Battery Show that year suddenly became the landmark event of the US battery industry. But despite all it did. The location was atrocious, the facilities non-existent and mid-November in Michigan is the time of year when the weather is only deciding whether it wants to snow a little or a lot. One commentator at the time called it “the abomination that causes desolation” — there was absolutely zero on site or nearby in terms of a hotel to stay in, a restaurant to eat at within walking range and facilities within the hall were confined to fine dining of hot dogs or burgers. Or burgers and hot dogs if you wanted to mix it up a little. But the same commentator also said it was the place to be, describing it as the most exciting exhibition he had seen to see a showcase of the US burgeoning battery business. “It caught the zeitgeist of the age,” one delegate later told Energy Storage Journal. “America was just about to be gripped by EV fever, lithium batteries were going to set the automobile world alight and companies such as A123 were in the process of raising $1 billion from private inves-
www.energystoragejournal.com
The conference and expo have been vital over the years to watch the innovations and teething pains of a new industry move towards maturity tors and the US government. “The show was the place to be if you were going to do any kind of business in the US battery or automotive business.” Since then the show hasn’t lost its lustre at all. Rather it’s gained more over time. The later arrival of a Hyatt hotel and restaurant took the sting out of some of the location but that was never the point in attending. It weathered the difficult years of the mid-2010s, growing steadily in both its scope and standing. Everyone knew in 2012 that GM’s proud boast at Novi that year of building some 500,000 EVs by 2017 was unlikely to happen. Nor did most believe that A123’s business would be sustainable until the moment it actually sold some batteries. But the conference and expo were vital to attendees to watch the inno-
vations and teething pains of a new industry reaching for maturity. This year’s Battery Show and Electric & Hybrid Vehicle Technology Expo 2023 didn’t disappoint. It boasted a four-track conference featuring over 180 sessions hosted by experts from industry-leading companies and covered the hottest trending topics and the newest market innovations. With over 2,000 delegates to the conference — a good chunk of whom came internationally from countries such as Germany, UK, China, Canada, India and more — the mix was completed with industry professionals from top car manufacturers and OEMs that included engineers, decision-makers, project managers, R&D and executives. Astonishingly. the largest Battery Show in North America attracted an attendance of well over 18,000 visitors. The major theme this year was “Navigating North America’s EV Transition”, including US government investments, discussions over IRA regulations, supply chain problems and solutions, battery Gigafactory news, and future battery recycling projects. Keynote speakers included David Howell, principal deputy director, Office of Manufacturing and Energy Supply Chains at the US Depart-
Energy Storage Journal • Winter 2023/2024 • 43
EVENT REVIEW: BATTERY SHOW ment of Energy, who spoke about the DoE’s activities to support battery innovation, manufacturing, and supply chains. Sebastian Wolf, chief operations officer at PowerCo, detailed Volkswagen’s new battery plant in Canada and its EV production plans in North America. Meanwhile Eric Norris, president of energy storage at Albermarle discussed ideas on achieving a self-sufficient North American lithium supply chain. ‘With back-to-back sold-out shows attracting over 800 exhibitors, we’ve seen 30% growth this year in exhibitor interest,” says the organizers. “To meet the overwhelming demand, next year we’re moving to elsewhere in Detroit to accommodate the 1,200+ exhibitors who want to be part of The Battery Show success. “In addition to strong interest received from our exhibitors, we’ve made sure that our attendees have best-in-class experience when attending the event.” The expo floor featured the Open Tech Forum which the organizers described as the epicenter for panel discussions as well as live demonstrations from thought leaders. The Battery Tech Forum, also on the show floor, consisted of educational sessions provided by advanced battery suppliers. Also, daily product showcases presented by industry-leading exhibitors, offering the chance to examine some of the latest technologies through interactive demos. Over the three days, there were several networking receptions, hosted at various exhibitor booths, providing attendees with the opportunity to connect with like-minded engineers, designers, and decision-makers over beer, wine, snacks and soft drinks.
ATTENDEE VIEWPOINT The organizers provided testimonials of the feedback they had received after the event. Here are two of them which are representative of the tone of attendees. “My experience at The Battery Show was nothing short of exceptional. The event provided a comprehensive view of the industry, from cutting-edge technologies to insightful keynote sessions. Networking opportunities were abundant, and I left with valuable connections and a wealth of knowledge. The event’s commitment to sustainability and innovation stood out, making it a must-attend for anyone in the field. I highly recommend this event to colleagues looking to stay at the forefront of the electric and hybrid vehicle industry.” “The expo was very well attended with a great deal of foot traffic. Seemed like all the key players were there, so great networking opportunities are available. Bring plenty of business cards!”
The Oktoberfest networking reception returned this year in the delegate dining tent. “We welcomed thousands of attendees to discuss ideas with entertainment provided by a lively polka band, drinks, hors
d’œuvres, as well as our famous raffle giveaway, with the winning contestant lucky enough to receive a brand-new e-bike from our sponsors Aqua Metals!” said the organizers.
The next Battery Show and Electric & Hybrid Vehicle Technology Expo will be on October 8-10, 2024 at 1 Washington Boulevard, Huntington Place Detroit, Michigan. A pre-conference workshop will be held on October 7.
Novi: where energy storage and OEMs meet
44 • Energy Storage Journal • Winter 2023/2024
www.energystoragejournal.com
UPCOMING EVENTS Li-ion Battery Europe 2023
Battery Experts Forum
October 29 – 31 Budapest, Hungary
November 7 – 9 Darmstadt, Germany
Li-ion Battery Europe 2023 is at the forefront of expediting the development of EV & Li-ion Battery in Europe, gathering policymakers, investors, manufacturers, raw material suppliers, component suppliers and technical service providers internationally to build partnerships. Highlights include: • Build and expand your network with 800+ International C-level key players • Get a complete overview of opportunities and challenges in optimising Li-ION projects • Take part in over 15 hours of networking time with a unique crowd of financial and Li-ION stakeholders • Join a dynamic, interactive event featuring brainstorming sessions, open space time, networking moments, and much more • Pre-day VIP Salon and Field Trip
The Battery Experts Forum is the biggest conference and exhibition for battery technology. Over 100 experts from the leading battery manufacturers and users provide information on the newest trends, product developments and solutions. The event will be accompanied by a specialized exhibition with more than 60 exhibitors, who are among the most important companies in the entire battery supply chain. From cell and battery manufacturers to OEMs and users, new design, production and manufacturing solutions, including battery systems, materials and components, as well as testing and recycling processes are presented. An absolute must for anyone involved in battery technology!
Contact Shanghai Metals Markets — SMM E: Youngyang@metal.com www.li-ion-battery-europe-metal.com
Battery Safety Summit November 6-7 Tysons Corner, Virginia, US With constantly increasing market demands for higher energy density cells globally, it is critical that advances in chemistry and engineering for next generation batteries have a significant focus on safety. Accurate testing, modelling and battery management systems are critical for predicting and controlling the complex electrochemical, thermal, and mechanical behavior of LIBs. With streams focusing on both materials and engineering for safety, the Annual Battery Safety Summit will bring together the key players from around the world to present the latest R&D advancements for integrating and implementing LIB safety to meet ever-increasing energy demands. Contact Dave Mello Cambridge Enertech E: dmello@cambridgeinnovationinstitute. com www.cambridgeenertech.com/batterysafety
www.energystoragejournal.com
Contact Battery Experts Forum E: info@battery-experts-forum.com www.battery-experts-forum.com
Battery Innovation Days November 14 – 15 Bordeaux, France Battery Innovation Days (BID) fosters dialogue among the research community, policymakers, industry players and end-users to boost battery research and innovation in Europe. Batteries are crucial to the enabling of technology that will allow the EU to achieve its zero-emissions goals through a responsible and sustainable market. BID aims to increase knowledge and encourage exchange around the deployment of cutting-edge technologies in battery materials, cell design, manufacturing and recycling. Join the event and you will be able to: • Stay on top of the latest trends and technologies. • Gain industry insights. • Attend the Battery Young Research Award ceremony. • Enjoy the networking opportunities and reception event with key stakeholders. Contact CLERENS E: info@batteryinnovationdays.eu w w w. a c c e l e v e n t s . c o m / e / b a t t e r y innovation-days-2023
The Energy Management Exhibition November 22 – 23 London, UK EMEX is the UK’s must-attend energy event for everyone wanting to increase their organisation’s energy efficiency and reduce carbon emissions. EMEX connects all commercial energy consumers with leading experts, policy makers and suppliers. EMEX is more than just an event. It’s a platform where practitioners and experts from various backgrounds and sectors are coming together to share their knowledge and experiences from successful implementations of energy efficiency strategies. Contact Mark Allen Group E: julia.pugh-cook@markallengroup.com www.emexlondon.com
Future Battery Forum November 27-28 Berlin, Germany + Online The management conference brings together the entire value system of battery technologies: Across various industries more than 300 users, battery system and cell manufacturers and their suppliers will spend two days exchanging information, making new contacts and enriching each other. The event is rounded off by the innovation exhibition with 30 inspiring showcases as a networking and break-out area. Contact IPM AG E: fbf@ipm.ag www.futurebattery.eu
London EV Show November 28 – 30 London, UK The next edition of the London EV Show will once again bring the entire EV value chain under one roof to network with major industry players and identify numerous business opportunities in a hypercompetitive EV market. The event aims to enable a large showcase of the new EV models & innovative solutions, a powerful speaker line-up and an enthused audience of policymakers, business leaders, investors, thought leaders
Energy Storage Journal • Winter 2023/2024 • 45
UPCOMING EVENTS and a wide range of end-users. Featuring a massive exhibition space and highly-actionable conference agenda, London EV Show is a must-attend EV event of 2023 that will host 3 days of strategic deliberations, critical knowledge-sharing, quality business meetings and the latest product demonstrations.
alternative, cost-effective manufacturing and supply solutions.
Contact Valiant Business Media E: info@londonevshow.com www.londonevshow.com
Advanced Automotive Battery Conference USA — AABC USA
Expo for Decarbonised Industries Date TBC Düsseldorf, Germany All you need for climate-friendly, secure and economical energy supply in your company: The Expo for Decarbonized Industries > ENERGY STORAGE (decarbXpo) bundles the most comprehensive range of energy storage systems, solutions for decarbonization in industry and commerce, and a high-quality forum and conference program into one event. Directly from the organizer of leading global industry trade shows. Supported by research institutes, sector and industry associations. Contact Caroline Markowski, Messe Dusseldorf E: markowskic@messe-duesseldorf.de www.decarbxpo.com
Global Automotive Components And Suppliers Expo December 5 – 7 Messe Stuttgart, Germany Global Automotive Components and Suppliers Expo features international exhibitors demonstrating the best of manufacturing expertise from around the world. Global Automotive Components & Suppliers Expo provides vital connections between engineers, project buyers and manufacturers. Tier 1, 2 and 3 automotive component manufacturers from around the world will be at the expo to display their very latest technologies and products. Plus numerous other exhibitors will be on hand to discuss how they can participate in cost reduction within supply chains, and how they can offer new,
46 • Energy Storage Journal • Winter 2023/2024
Contact UKi Media & Events Clinton Cushion E: registartion@ukimediaevents.com www.globalautomotivecomponentsandsuppliersexpo.com
December 11 – 14 San Diego, Californi,USA The 2023 program will uncover the underlying technical and business issues that will impact the pace and path of vehicle electrification worldwide. Join us in San Diego to network with chief battery technologists from leading automotive OEMs, who will share their development trends and projected battery needs, as well as their key suppliers who will present their latest offerings and roadmaps for the future. Contact Cambridge Enertech E: ce@cambridgeenertec.com www.advancedautobat.com/us
Intersolar North America January 17-19 Long Beach, California. US Intersolar North America and Energy Storage North America is the premier U.S.-based conference and trade show focused on solar, energy storage, and EV charging infrastructure. Dedicated to accelerating the energy transition, the combined event delivers actionable education, invaluable networking, and an immersive exhibit hall experience — which includes the popular Solar Games installer competition. Join 6,000+ energy leaders and 300+ exhibitors in Long Beach, CA, to help shape the next phase of our clean energy transformation. Contact Diversified Communications E: ISNAinfo@divcom.com www.intersolar.us / www.esnaexpo.com
MRAI 11th International Indian Material Recycling Conference January 23-25 Kolkata, India Over the past decade, Material Re-
cycling Association of India has organized 10 successful International Indian Material Recycling conferences. With your continuous trust and overwhelming support, MRAI is pleased to announce its 11th IMRC 2024 Convention & Exposition in Kolkata, India. MRAI 11th IMRC 2024 Convention & Exposition will focus to bring Indian and International Recyclers under one roof for networking and showcasing their business interest, products, technologies, services, new innovations, perspective, etc. The Conference will accommodate 2500+ Delegates and 130+ Exhibitors representing Recycling Fraternity. Contact Metal Recycling Association of India E: mail@mrai.org.in www.imrc.mrai.org.in/index.html
IEEE Eelectrical Energy Storage Applications & Technology Conference January 29-30 San Diego, California, US EESAT has been the premier technical forum for presenting advances in energy storage technologies and applications since 2000. This forum is now sponsored by the IEEE Energy Storage and Stationary Battery (ESSB) Committee, under the IEEE Power and Energy Society, with continuing support from the DOE Office of Electricity and the national laboratories. The technical program will highlight advances in electricity storage technologies including new battery chemistries, such as flow, sodium, zinc, and other battery designs, flywheels, hydrogen storage, PS, CASE, and novel approaches such as demand response as storage programs. Contact IEEE MCE www.cmte.ieee.org/pes-eesat/
Solar Finance and Investment Europe January 31-February 1 London, UK Returning for its 11th year, Solar Finance & Investment Europe Summit will bring together the brightest minds representing funds, banks, developers, utilities, government and industry across Europe and the UK on a
www.energystoragejournal.com
UPCOMING EVENTS programme that is solutions-focused from top to tail. The event is designed to enable leaders at the forefront of solar investment and deployment in Europe to scale, learn and land themselves industry defining partnerships. We will showcase the latest insights on European markets, solar-related technologies and winning strategies from the best in the business. Join us in discussing next steps for the industry. Contact Ollie McCullough, Solar Media E: omccullough@solarmedia.co.uk www.financeeurope.solarenergyevents. com
RE+ Northeast February 13-14 Boston, Massachusetts, US RE+ Northeast’s primary mission is to deliver on the missions of both SEIA and SEPA in a way that strengthens the solar energy industry domestically and globally, through networking and education, and by creating an energetic and engaging marketplace to connect buyers and suppliers. The event focuses on the exchange of ideas, knowledge and expertise for furthering solar energy development in the Northeast United States. Contact Smart Electric Power Alliance E: customerservice@re-plus.com www.re-plus.events/northeast/
NAATBatt Annual Conference February 19-22 Carlsbad, California, US. NAATBatt 2024 will be the top networking and market intelligence event in the North American advanced battery industry in 2024. Top executives, scientists and investors use the NAATBatt annual meeting to renew acquaintances, see new companies and technologies and hear about the latest developments in the industry. Joining NAATBatt International is a great way to build relationships in an industry that will help shape the 21st Century. Vehicle technology, renewable energy, light aviation, maritime propulsion systems, robotics, weapons systems, medical devices, consumer electronics and the Internet of Things will all depend on electricity supplied by advanced battery technology. Contact NAATBatt International E: info@naatbatt.org www.naatbatt.org
Energy Storage Summit February 21 – 22 London, UK The Energy Storage Summit is renowned for its quality, breadth and expertise, featuring an all-encompassing range of strategic and technical sessions on the adoption and deployment of storage. The Summit plays a pivotal role in
the journey to propelling the industry into the next stage of its development, providing an unrivalled platform to develop the right partnerships and create business opportunities of all sizes. Contact Solar Media E: energystorage@solarmedia.co.uk www.storagesummit.solarenergyevents.com
ACI’s Battery Recycling Europe February 28-29 London, UK The conference will bring together Battery Recycling industry experts, collection scheme operators and battery manufacturers to learn, share and discuss the current and emerging topics in the Battery Recycling industry. The two day event will give you an insight on the newest recycling technologies, latest updates in policy and regulations, and commercial benefits of recycling spent power batteries. ACI’s Battery Recycling Europe will also showcase future opportunities in the Battery Recycling Market and blend together inspirational keynotes, informative sessions, and wonderful networking opportunities. Contact Active Communications International E: luca@acieu.net www.wplgroup.com/aci/event/batteryrecycling-europe/
SAVE THE DATE The Smarter E India — ees India February 20-23 Gandhinagar, Gujarat, India With three parallel energy exhibitions, The smarter E India is India’s innovation hub for the new energy world. It presents cross-sector energy solutions and technologies and reflects the interaction of the solar, energy storage and electric mobility industry. The smarter E India addresses all the key areas along the value chain and brings together local experts and international stakeholders in the energy future.
Jain temples, Palitana, Gujarat state
www.energystoragejournal.com
Contact Solar Promotion E: brijesh.nair@mm-india.in www.thesmartere.in/home
Energy Storage Journal • Winter 2023/2024 • 47
UPCOMING EVENTS Battery Japan February 28-March 1 Tokyo, Japan BATTERY JAPAN is the world’s leading international exhibition for rechargeable battery, showcasing various components, materials, devices, finished rechargeable batteries for rechargeable battery R&D and manufacturing. It is held twice a year in Tokyo (Mar.) and Osaka (Sep.) Contact Reed Exhibitions E: wsew.jp@rxglobal.com www.wsew.jp/hub/en-gb/about/bj.html
Interbattery March 6-8 Seoul, Korea InterBattery is Korea’s only battery industry exhibition that simultaneously accommodates the fast-growing mobile market, automobile industry, as well as ESS and EV markets. Visiting Interbattery allows buyers and manufacturers to interact with one another whilst learning about the newest products and trends in the Korean and International markets. InterBattery has served itself as an exclusive business platform showcasing the battery industries forthcoming prospects since its first launch. Contact COEX E: interbattery@coex.co.kr www.interbattery.or.kr
International Battery Seminar and Exhibition March 12-15 Orlando, Florid, US Founded in 1983, the International Battery Seminar & Exhibit has established itself as the premier event showcasing the state of the art of worldwide energy storage technology developments for consumer, automotive, military, and industrial applications. Key thought leaders will assemble to not only provide broad perspectives, but also informed insights into significant advances in materials, product development, manufacturing, and application for all battery systems and enabling technologies. As the longest-running annual battery industry event in the world, this
48 • Energy Storage Journal • Winter 2023/2024
meeting has always been the preferred venue to announce significant developments, new products, and showcase the most advanced battery technology. Contact Cambridge Enertech E: ce@cambridgeenertech.com www.internationalbatteryseminar.com
The Distributed Energy Show March 13 – 14 Telford, UK The Distributed Energy Show is a free to attend exhibition and conference that will bring together the entire supply-chain focused on distributed energy resources and provide visitors with a comprehensive array of technologies and systems to enable them to generate, store, manage and distribute their own power and heat. Contact Event Partners E: lana.mercer@event-partners.com www.distributedenergyshow.com
Battery Tech Expo Central Europe March 14 Prague, Czech Republic Central Europe is rapidly emerging as a key location in the Battery Technology landscape. With a well-established and rapidly developing automotive industry, and a growing number of gigafactories both in operation and planned to come on-stream, the next few years will see a rapid expansion in battery production capacity in the region. The Battery Tech Expo – Prague is perfectly located to showcase the Battery Technology supply chain in the Central Europe Hub – Highlighting the Czech Republic, Slovakia, Hungary and Poland, whilst remaining within easy reach of the German. French and Italian automotive centres of excellence. Contact David Reeks, 10fourmedia E: david.reeks@10fourmedia.co.uk www.batterytechexpo.co.uk
Intersolar & ees Middle East April 16 – 18 Dubai, United Arab Emirates Take your chance to join the most powerful platform in the MENA region Middle East Energy (MEE), Inter-
solar, and ees, the leading energy exhibitions are joining hands to co-deliver an outstanding renewables and energy storage event at Middle East Energy. Renewables and energy storage at MEE is the largest gathering of solar and renewable energy industry professionals in the Middle East & Africa, offering the most effective trade focused platform to international manufacturers and distributors looking to meet regional buyers. Contact Solar Promotion International E: stunz@solarpromotion.com www.intersolar.ae/home
World Future Energy Summit April 16 – 18 Abu Dhabi, UAE WFES (World Future Energy Summit) is a global industry platform connecting business and innovation in energy, clean technology and efficiency for a sustainable future. WFES Expo hosts over 850 exhibiting companies from more than 40 countries; The Future Summit; the unique WFES Forums, covering everything from disruptive technologies to future cities; a set of ground-breaking WFES Initiatives; and WFES Hosted Events, where individual growth markets come under the spotlight. Contact RX Global E: worldfuturenergysummit@rxglobal.com www.worldfutureenergysummit.com
Battery Tech Expo April 25 Silverstone, UK The Battery industry is on the cusp of a power revolution with big technology companies investing heavily in the next generation of battery development and energy storage. The Battery Tech Expo will provide a unique opportunity to showcase the latest products, technologies and services covering the Battery Management Systems, EV Battery, Battery Storage, Battery Development/ Discovery, Commercial and Mobile Power Device sectors. Contact 10fourmedia David Reeks E: david.reeks@10fourmedia.co.uk www.batterytechexpo.co.uk
www.energystoragejournal.com
www.ees-events.com
ENERGY STORAGE EVENTS
— The Leading Exhibition Series for Batteries and Energy Storage Systems ■ February 21–23, 2024, GANDHINAGAR, INDIA INDIA‘S LEADING ELECTRICAL ENERGY STORAGE EXHIBITION www.ees-india.in ■ JUNE 19–21, 2024, MUNICH, GERMANY EUROPE’S LARGEST EXHIBITION FOR BATTERIES AND ENERGY STORAGE SYSTEMS www.ees-europe.com ■ AUGUST 27–29, 2024, SÃO PAULO, BRAZIL SOUTH AMERICA’S HOT SPOT FOR BATTERIES AND ENERGY STORAGE SYSTEMS www.ees-southamerica.com Follow us