Financial close for project with world’s largest off-grid BESS

Red Sea Project. Image: Red Sea Development Company.

A consortium of developers has achieved financial close for US$1.3 billion in debt facilities for utilities infrastructure at the Red Sea project, a huge resort under construction off the coast of Saudi Arabia which plans to have the largest off-grid battery energy storage system (BESS) in the world at 1,200-1,300MWh.

Developers ACWA Power, SPIC Huanghe Hydropower Development Company and Saudi Tabreed Cooling Company have secured the US$1.302 billion senior debt facilities, ACWA announced last week (24 February).

ACWA Power has been appointed by project developer The Red Sea Development Company (TRSDC) to design, build, operate and transfer the Red Sea Project’s utilities infrastructure. TRSDC secured financial close on its own debt facilities for the project, totalling US$3.76 billion, last month.

Huawei will supply the battery energy storage system (BESS), as reported by Energy-storage.news. Reported figures on its capacity vary between 1,200 MWh and 1,300 MWh, with either figure by far the largest off-grid BESS in the world.

The senior debt is a combination of USD and Riyal-denominated provided by a consortium of Saudi Arabian and international banks, including the Al Rajhi Bank, APICORP, Bank Saudi Fransi, Riyad Bank, Saudi British Bank, Saudi National Bank and Standard Chartered.

ACWA says the Red Sea resort will rely entirely on renewable energy for power generation, water production, wastewater treatment and district cooling. It will include a solar photovoltaic plant with 340MW of power output, ACWA said. Phase one of the project will open in late 2022.

ACWA Power CEO Paddy Padmanathan commented: “The Red Sea Development Project, in the Kingdom of Saudi Arabia, spanning an area the size of Belgium, is a remarkable project in terms of vision, ambition, size and scope that pioneers responsible regenerative tourism, preserving the planet for future generations while enhancing the offering and experience of tourists.”

The Red Sea Development Company (TRSDC) is the overall developer and procurer of the project and will procure all the utilities under a single offtake agreement covering the provision of renewable power, potable water, wastewater treatment district cooling and solid waste treatment.

It is part of Saudi Arabia crown prince Mohammed Bin Salman’s Vision 2030 programme which seeks to modernise the country’s economy, increase its mix of renewable energy and boost the role of the private sector.

Not far along the Red Sea Coast, the state is building an entirely new-build city, NEOM, which it says will be 100% renewable energy-powered including with large-scale green hydrogen.

Continue reading

ForeFront Takes on Solar Energy Portfolio Installation at California Airport

The County of Sonoma in California has partnered with ForeFront Power, a developer and asset manager of commercial and industrial-scale solar energy and storage projects, to build a 963 kW solar energy portfolio at Charles M. Schulz-Sonoma County Airport (STS), as well as at the Sonoma County Fleet Operations Building at 709 Russell Avenue in Santa Rosa. Through a five-year collaboration with the county, ForeFront Power installed an 884 kW solar canopy in the airport parking lot and a 79 kW rooftop solar array at the Fleet Building.

ForeFront Power analyzed the airport’s annual electrical consumption and designed a solar energy system to cover the airport’s electrical energy needs. They developed a solar parking canopy comprising 2,010 solar modules that generate enough renewable electricity to offset 100% of the airport’s annual electrical demand. PG&E’s Net Energy Metering (NEM) provision allows the airport to “bank” any excess energy produced by the system during periods of extended sunshine. The airport can then tap these banked excess energy credits at night or on cloudy days, or whenever daily electricity demand exceeds the production by its solar energy system.

“Anything we can do to move our community toward a regenerative future is a priority right now,” says Sonoma County 4th District Supervisor James Gore. “Our renewable energy portfolio is one part of Sonoma County’s ambitious sustainability plan to adapt and prepare our communities for climate change. We in Sonoma County are also proud to do our part in helping California and the U.S. reach their climate goals.”

“ForeFront Power is thrilled to see Sonoma County achieve another milestone in its sustainability strategy,” states Rachel McLaughlin, vice president of sales and marketing at ForeFront Power. “Even as Northern California has faced unprecedented climate challenges, communities are demonstrating their capacity for adaptation and resilience.”

The county selected ForeFront Power to develop, finance and construct the solar energy portfolio through a power purchase agreement (PPA). Combined, the two systems at airport and fleet will generate over 1,495,500 kWh of renewable energy per year.

Continue reading

CellCube and Redflow strike deals to accelerate long-duration flow battery rollout

A CellCube battery unit at US Vanadium’s Hot Springs facility in Arkansas. Image: CellCube.

Vanadium redox flow battery (VRFB) supplier CellCube has agreed a five-year, three-million litre/year bulk electrolyte supply deal with producer US Vanadium, while long-duration peer Redflow’s zinc-bromine flow batteries will be tested by global safety certification company Underwriters Laboratories Inc (UL).

CellCube and US Vanadium quintuple agreement size

Following on from their first partnership announced late last year, Cellcube and US Vanadium’s long-term supply assurance deal sees the latter commit to selling up to three million litres of vanadium electrolyte a year for the next five years to CellCube.

The deal includes a price cap and expands on the previous agreement which totalled up to 580,000 litres a year. It appears to potentially account for the bulk of the Hot Springs facility’s output which US Vanadium says is ‘more than 4 million litres per year’.

CellCube says that the deal has been done to secure future business in an increasingly challenging supply market. Long-duration battery sources at Energy Storage Summit 2022 last week told Energy-storage.news that vanadium was suffering ‘different but still challenging’ supply constraints to those faced by lithium-ion.

“This agreement reflects today’s rapidly accelerating growth of the vanadium redox flow battery industry and of US Vanadium’s ability to supply VRFB manufacturers with ‘Made-in-America’ ultra-high-purity electrolyte,” added US Vanadium CEO Mark A. Smith.

Both companies say the demand for vanadium batteries has been booming, especially thanks to the growing microgrid market segment. The long-duration technology is being used at microgrids around the world including, most recently, a microgrid trial by utility SDG&E in California and a South African mine.

California is a hot-bed of activity with 226MWh of vanadium flow battery sites on the way from one energy supplier alone.

US Vanadium claims that alongside producing new electrolyte, it can recycle spent electrolyte at a 97% vanadium recovery rate.

Leading battery storage certificate provider to test Redflow’s zinc-bromine battery

Meanwhile, UL will undertake a test programme with Australian company Redflow to “…understand key technical attributes of redox flow batteries, study their cycle life and ageing properties and to understand how the batteries behave under off-nominal conditions of overcharge, over-discharge and external short-circuit conditions,” Redflow said.

The test programme on six acquired Redflow batteries started in January and will run for a ‘number of months’. The company says the research will enhance the knowledge base around the battery technology and allow interested parties to better compare zinc-bromine with other battery chemistries.

Underwriters Laboratories is the developer and publisher of the UL 9540 product safety standard for energy storage systemes (ESS) and UL 9540A, a large scale fire test for battery energy storage systems (BESS). Both are industry standard certifications for energy storage today, alongside NFPA 855 from the National Fire Protection Association which is designed to mitigate fire hazards.

Redflow, which has been listed on the Australian Securities Exchange Ltd (ASX) since May 2018, has also found the microgrid and off-grid markets fertile ground for its products.

It completed its largest order to-date in December with a waste-to-energy facility in California for 2MWh of battery systems. And its solution for remote telecoms infrastructure has been snapped up in South Africa, New Zealand and Australia.

Continue reading

Energy storage system integrators and the challenges they face as competition heats up

RWE is an example of a big energy industry player developing in-house expertise in the space. Image: RWE.

The battery energy storage system (BESS) industry is changing rapidly as the market grows. At the heart of what is becoming a crowded and competitive market is the role of the system integrator: putting together the components and technologies that bring BESS projects to life. 

In an interview with Energy-Storage.news, analyst Oliver Forsyth from IHS Markit explains exactly how things are changing in system integration. New market entrants are joining, often from the solar inverter or battery cell manufacturer space. 

Bespoke project-by-project battery storage system design is giving way to more modular, standardised solutions from the big players. The emphasis on expertise in software is as pronounced as the emphasis on expertise in hardware when system integrators seek to differentiate their offerings. 

As the chart below shows, IHS Markit surveyed dozens of leading system integrators and produced rankings based on metrics including installed and planned projects by megawatt. While the idea of a top 10 ranking is in itself interesting, what could be even more illuminating is what IHS Markit’s team learned along the way.

IHS Markit’s rankings of the top 10 surveyed system integrators for 2021. Image: IHS Markit.

The system integrator space is dynamic, and constantly moving, Forsyth says. IHS Markit’s annual report covers around 50 participants, but there are hundreds more, including local players focused on their specific regional markets. 

He also adds the caveat that rankings are influenced by whether companies agree to participate or not, so there are a “number of key notable exceptions” that didn’t share all the required data for the survey, which meant they were not ranked as highly as might be expected.

Growth of software, long-term O&M contracting as differentiators

System integrators, defined as companies involved in system assembly, design and commissioning of energy storage projects are increasingly adding software expertise to their core competency set. 

“All batteries basically need some software to control them in some shape or form: whether that’s a complex software system, doing some sort of algorithmic trading, or whether it’s a fairly ‘dumb’ kind of energy management system (EMS), that does what it needs to do and manages that just fine. All systems will need some sort of software,” Forsyth says. 

“That’s becoming increasingly obvious to both the system integrators and the customers, so I think that’s becoming a requirement for a system integrator.”

Another big addition to the core competency set of integrators is a focus on bundling up long-term services and creating customer peace of mind.

System integrators are diving deeper into understanding what is required of them within warranties and what their customers — often project developers — are looking for. The market is better trying to understand the whole after sales service piece, from operations and maintenance (O&M), to warranties.

This is still a very “tailored” offering. It’s also something system integrators have traditionally tried to stay away from. However, they and their customers are beginning to understand that with their whole system approach, integrators have a better awareness of what’s involved in delivering on a project long-term than others within the value chain. 

O&M allows system integrators to get involved with mitigating and managing risk on a level that differentiates them from competitors, Forsyth says. 

“The battery industry hasn’t really been around for that long — so we haven’t really seen the full lifecycle of many of these assets to fully understand how some of these assets get degradated over time. 

“Developers and all those that own and operate these assets are starting to realise that there is an element of risk here that they want to pass on to someone else, they don’t want to hold that risk.” 

Battery OEMs or balance of plant (BOP) equipment makers aren’t likely to want to hold the risk either, because although they supply the components, they don’t have long-term visibility into how the asset operates. Similarly, asset operators and optimisers might be experts in trading from and earning revenues from batteries — “but they don’t really want to take on the risk of the asset,” leaving system integrators as the natural fit. 

That said, a limitation for many system integrators is that “they’re not necessarily the most leveraged or the most capital intensive businesses in this part of the industry,” meaning the pool of integrators big enough or with a long enough track record to offer that risk mitigation is limited. 

Insurance companies would be a great example of balance sheet-backed, leveraged partners but as yet they have not really been seen to step into this industry, leaving system integrators as perhaps the best-placed to offer long-term assurances.

A lot has changed even in the past year alone

In early 2021, IHS Markit analyst Julian Jansen wrote an article for our journal PV Tech Power which highlighted the strategies of leading system integrators. This was based on the 2020 edition of the annual report.

In an interesting quirk of fate, Jansen is now working at Fluence as a growth and market director for the EMEA region. Many of the trends identified by his predecessor as beginning to emerge at that time are continuing or growing, Oliver Forsyth says. 

One of those is the entry into the space of competitors from different upstream and downstream ends of the industry, diversifying from supplying equipment like battery cells or power conversion systems (PCS) or developing and owning projects to add system integration into their offerings. 

A prominent example from the downstream is NextEra Energy, which was ranked second in the IHS Markit survey.

“They are very large, they do a lot of the building and managing and owning of these assets themselves across various other assets. So it was very natural for them to move into this battery space themselves,” Forsyth says. 

RWE, although not yet prominent enough to have broken into the top 10, is another great example, according to the analyst. The Germany-headquartered vertically integrated energy company is “very keen” on progressing its in-house capabilities in battery storage, with a number of projects in the works in the US and Europe, including two hybrid plants pairing run-of-river hydropower with 117MW of batteries in Germany. 

RWE is still an unusual example however, because what the company is doing requires in-house capability that is significant — “not all developers have the global scale to make this cost worthwhile,” Forsyth adds. RWE is also working with system integrators, for example, Wärtsilä Energy will supply the developer with 80MWh of battery storage equipment and controls platform for its Hickory Park solar-plus-storage project in Georgia, US.

Instead, the bigger threat to the ‘traditional’ system integrators in this young industry is what Forsyth describes as “mid-size developers willing to procure batteries directly,” helping them save margin on the largest cost piece of a BESS. Those developers will then outsource the integration to a system integrator or an EPC capable of assembling and commissioning the system. 

A lot of those developers are willing to try and do as much of that procurement and putting together the project by themselves, which could eat into integrators’ market share and margins.

That said, IHS Markit has observed that others that have tried that strategy are starting to back away from it, and once again calling on the system integrators for their specialised knowledge and experience. 

“Over the last six months, what we’ve noticed is that people are starting to back away from this, simply because there is risk that people weren’t fully aware of and it isn’t clear in this case, who takes on that role, of taking on that risk of building and commissioning that system.

“There is inherent risk involved and a lot of the EPCs and others that have stepped into this space aren’t quite experienced with building and commissioning energy storage systems. That’s kind of why we’re seeing a shift back towards using more system integrators.”    

From the other end — upstream — batteries manufacturers are definitely moving downstream and doing more of the integration work themselves. 

“BYD is a classic example. They’ve been there for quite a while offering their full containerised system, both AC and DC, including the PCS.”

Other large international battery OEM players like LG Energy Solution, CATL and Samsung SDI have launched their own plug and play solutions which are fairly easy for EPCs or integrators to work with, again, eating into what might previously have been the preserve of the integrator alone. 

Oliver Forsyth notes however that the big caveat is that with the exception of BYD, the others are not PCS makers, so they are supplying their solutions with DC connections only, and therefore largely targeting the US solar-plus-storage market where that configuration is most in demand. 

The recent acquisition by LG Energy Solution of NEC ES — one of the global market leaders until its exit from the industry and still accounting for a 4% share of the US market — is an intriguing proposition in this regard, with LGES having said it will leverage the acquisition to extend its system integration capabilities. 

For battery OEMs to take a significant share of the system integration market, they will need to develop their software, their O&M capabilities and ability to offer long-term whole system warranties, manage the asset and be able to integrate the PCS. 

It will take them some time to do this, but Forsyth says that in three to five years from now, that could be a big threat for system integrators.

Meanwhile, the energy storage divisions of solar inverter manufacturers SMA Sunbelt and Sungrow have already made incursions into the system integration space: both ranked in the IHS Markit top 10. 

“Obviously, there’s a level of understanding of the PCS and the power electronics that gives them an advantage in that space. How much of an advantage? It’s not large enough to completely dominate the market, but there is something there,” the analyst says.

“We’ve seen some of those major PCS providers step in, to some extent, because of the inverter market being so competitive, it was a natural step for them into the battery space. We’ve seen them do well,” he says, noting that SMA Sunbelt has had much of its success in Europe, while Sungrow has done well within China and is now starting to grow a “significant global presence” in Europe and the US. 

Solar inverter player Sungrow has delivered battery projects in key Asian, European and US markets. Pictured is the BESS at a solar farm in northern Japan. Image: Sungrow.

Energy management system expertise

One piece of IP held firmly to by system integrators and still considered an advantage is their expertise with energy management systems (EMS). 

System integrators have deep knowledge of the hardware required for BESS projects, which in turns makes them well qualified to know what sort of software will drive that hardware. 

For developers or equipment manufacturers, EMS or battery management system (BMS) technology is a nascent technology within a market that’s still a relatively niche market compared to their main activities. 

Exceptions are the likes of RWE or NextEra, that have developed some in-house capabilities around the EMS, but these very much sit as exceptions, or perhaps LGES, which has acquired those capabilities via NEC ES. 

“It’s that marriage of the hardware and the software, which is tricky and each of the hardware from the integrators — even from each of the battery OEMs — is slightly different. So you have to understand that technology to be able to apply that software,” Forsyth says.

“It’s hard for an outside player to get into that, because they need to understand that level of hardware, which you may only understand if you’ve built that hardware from the ground up.”

One advantage that gives system integrators is that they can apply their EMS across projects using systems and components from different vendors, opening up their pipeline of potential projects versus a developer doing it in-house or an OEM working on its own hardware only. 

Room for smaller players

An interesting niche within a niche are the third-party EMS providers, like Indie Energy or Fractal in the US, which Forsyth describes as EMS core providers. 

These companies are competing with system integrators to some extent, and offering their EMS tech to developers which will in turn likely hire integrators for the bulk of the project work. The developer could get the EMS from the system integrator but instead is taking the extra step of going to a third party for it. 

“In that step, you have to be obviously offering something substantially better, or be able to justify why you should take a step further and go to a third party provider. And clearly it’s happening across the market and so there is clearly some value there.”

Forsyth is curious to see how this will play out, he says, because system integrators are recognising the threat and investing in their software to try and even the playing field. 

In a more general sense, will there be room for smaller players alongside the global system integrators? 

It is likely there will be consolidation globally in such a competitive market with such tight margins, where trends, Forsyth says, are “constantly changing”. 

Nonetheless, there will be unique local challenges that might require locally focused companies to handle, for example grid codes, which can vary hugely from region to region, and of course language barriers. It can also be cheaper to do business with those smaller players.

Conversely, big players like Fluence are “kind of trying to go everywhere”.

“They’re spreading all over the globe, trying to get these local competencies — and that’s great if they can make sure they can grow and make those markets work for them — but it is also a costly expenditure,” Forsyth says. 

Customers will need to make the choice between a locally-focused system integrator that has more in-depth knowledge of their market and its grid codes and may come in at a lower price, or an international or global player that might be more expensive and have less specialised knowledge but is able to point to its track record and quality of projects already installed. 

Fluence commissioned this 1MW pilot project in Lithuania before it was followed up with a contract for 200MW/200MWh from transmission operator Litgrid. The integrator is ‘spreading all over the globe,’ Forsyth says. Image: Litgrid.

‘Challenging space to be in’

New market entrants beware. As the cautionary tale of NEC ES demonstrated, making a profit in the system integration space is challenging.

“It is something that a lot of the investors of these companies, are trying to figure out: will this company be profitable long term? Because I don’t think many of them are, it is a challenging space to be in,” Forsyth says. 

Not only is there a lot of competition but customers are expecting price declines to come “almost year-on-year,” yet the industry is currently seeing a lot of raw materials and logistics-driven price spikes. 

“I think there are routes to make this profitable but again: this market space can’t have the amount of system integrators that we have at the moment.” 

Back in October last year, IHS Markit forecast that 2021 would be a year with more than 12GW of battery storage installations worldwide, with the market to exceed 30GW by 2030. System integrators have unquestionably been the pioneers of establishing this industry but what role — or roles — they will play going forward is going to be closely watched. 

Continue reading

Zinc battery storage player Eos claims ’18 month pathway’ to positive margins

Eos battery storage equipment at Duke Energy’s test facility. Image: Duke Energy.

Eos Energy Enterprises has offered 2022 revenue guidance of US$50 million and the zinc battery storage company’s leadership has claimed gross positive margins can be achieved in a year and a half. 

The company reported its Q4 2021 financial results on Friday. It narrowly missed a US$5 million full-year 2021 revenue target, netting US$4.6 million but noted that this represented a big jump on US$0.2 million recorded for 2020.

A large portion of those revenues were recorded in the fourth quarter, US$3.1 million across eight customer projects. Again this represented a big jump from US$0.7 million in the previous quarter. It received US$51.3 million in orders in Q4 2021. 

Eos claimed its pipeline of potential orders is at US$4.1 billion, with CEO Joe Mastrangelo estimating a “hit rate” of about 30% from pipeline to booked order. 

Full-year bookings for 2021 were confirmed as US$137.4 million. This figure had already been reported in November’s Q3 results — a possible extra US$150+ million of orders referred to at the time have not yet materialised but the company has said that it expects to secure US$400 million of orders from its pipeline during 2022. 

“…you’re really starting to see the company now transitioning from an R&D company into a full-fledged operating company,” CEO Joe Mastrangelo said in a conference call to explain results. 

Energy-Storage.news reported last week that Eos has solidified plans to expand manufacturing capacity from its facility in Turtle Creek near Pittsburgh to 800MWh of annual output for the Znyth aqueous zinc batteries it makes. 

As with other energy storage companies that have gained stock exchange listings through special purpose acquisition companies (SPACs), Eos faces challenges in establishing itself as a profitable entity.

Recent financial results from iron flow battery company ESS Inc and smart distributed battery energy storage company Stem Inc illustrate this point — albeit all three companies have been upfront from prior to their SPAC mergers that profitability is a long-term goal.  

Eos chief financial officer Randall Gonzales said in the call that while the company’s cost reduction goals were internal and would not be revealed publicly, it has modelled a path to gross positive margin which it could execute within 18 months. 

In the running for DOE loan

The company has been invited to apply for a US government loan from the Department of Energy’s Loan Program Office, headed up by noted clean energy entrepreneur and investor Jigar Shah. The invite comes after Eos’ Znyth battery passed an initial stage of proving its ability to contribute to decarbonisation through use of an innovative technology. 

Eos is set to compete for a pot of US$3 billion in loans available in the DOE Renewable Energy and Efficient Energy Loan Program tranche. CEO Mastrangelo said in a statement that another advantage of the company’s technology is that it largely uses abundant materials sourced domestically. 

“Eos has invested in a domestic supply chain where 80% of our raw materials are within a five-hour drive of our factory––and our goal is to be above 90% by the end of 2022,” he said.

Reducing reliance on international suppliers also reduced uncertainty of delivery, the CEO said in the conference call.

He offered a musical analogy for the supply chain: “…you want these things to be like marching bands where they’re just going down, and they know the choreography, and they deliver what you need. The way the supply chain, the analogy I say is like supply chains become like jazz, where everybody’s kind of doing their own thing, and you want to put it all together and make it sound good.”

While the DOE loan would give Eos the financial ability to scale up production significantly, CFO Gonzales said in response to an analyst’s question that the company’s business model with regards to manufacturing is “very agile and flexible”. 

“The business model from a manufacturing capacity perspective is not ‘build it and they will come’. We have the backlog and we’re expanding the [production] capacity in association with the backlog,” Gonzales said.

While Mastrangelo noted that Eos is going after the mid to long-duration energy storage market and that the short-duration space will largely be dominated by lithium-ion, the zinc battery technology could scale faster and more cost-effectively.

Investment in the Turtle Creek facility equates to US$50 million per gigawatt-hour of annual manufacturing capacity, Mastrangelo claimed, 60% less than the cost “if you were doing a comparable lithium-ion facility”. This is based on a full-year projection that between US$25 million and US$35 million investment will be required to create its 800MWh of production capacity. 

Due to high costs and expenses of nearly US$140 million, Eos recorded a net loss of US$124,216,000 for 2021, but held more than US$105 million in cash, cash equivalents and restricted cash at the end of the year.

The company’s ongoing challenge is to scale up revenues and scale down costs to attain gross positive margins within that 18 month timeline. It has logged some high profile customer orders in the past few months: its systems have surpassed 400MWh of operation in testing and the field, a letter of intent (LOI) has been signed for a possible 240MWh project in Texas’ ERCOT market, Mastrangelo pointed out. 

Meanwhile the Turtle Creek facility has received ISO 9001 quality management certification and Eos recently signed a multi-year supply deal for the high purity zinc-bromide used in Znyth’s electrolyte with chemicals company TETRA. 

Conference call transcript by Seeking Alpha.

Continue reading

Orbital, Jingoli Pick Up EPC Contract for Alabama Solar Project for Lightsource bp

Another Orbital Solar Services project, a 22 MW solar farm in Murfreesboro, N.C.

Orbital Energy Group Inc.’s wholly-owned subsidiary, Orbital Solar Services (OSS), and its joint venture partner, Jingoli Power LLC (jointly: OSS JPOW LLC), have signed a formal engineering, procurement, and construction (EPC) contract and begun construction on a 130 MW DC/100 MW AC solar farm in Alabama for Lightsource bp.

“OSS/JPOW is honored to have formally begun construction on the Black Bear Project and to start this very special relationship with the Lightsource bp team,” states Michael Janda, OSS’s president. “We believe this project will solidify our mutual goals moving forward and will allow this relationship to grow over time. The satisfaction of our customer remains one of OSS’s top priorities and we are honored to showcase our talent and professionalism on the Black Bear Project. We look forward to seeing this collaboration evolve with Black Bear being the first of many projects with Lightsource bp.”

The contract calls for OSS JPOW LLC to design, engineer and build a utility scale solar array to be delivered in late 2022. Under the contract terms, OSS will provide full utility scale EPC services, including substation construction. The project will consist of 350,000 solar panels installed across 800 acres of land.

“We are excited by the start of this project, showcasing Orbital’s ability to provide services that contribute to reducing our nation’s carbon footprint,” says Jim O’Neil, Orbital Energy Group’s vice chairman and CEO. “This project and others like it serve to expand OSS’s industry relationships based on a solid record of achievement, and the expertise to provide end-to-end solutions. By expanding relationships, as we have with Lightsource bp, we are positioning OEG/OSS to increase their presence in the renewable and alternative energy marketplace throughout 2022 and beyond. In addition, our partnership with industry leading Jingoli Power expands both our bonding capacity and the service portfolio we can provide to our customers.”

“This project is early proof that Jingoli Power’s joint venture with Orbital is well positioned to meet the growing demand for reliable, competitively priced solar generation,” adds Karl Miller, Jingoli Power’s CEO. “I’m especially thrilled that one of our initial joint projects is for Lightsource BP, given our shared track record of safety and excellence in execution.”

Continue reading

Northvolt buys site for 100GWh cathode materials gigafactory in Sweden

The Kvarnsveden Mill and surrounding industrial area in Borlänge, Sweden. Image: Northvolt.

Lithium-ion battery startup Northvolt has agreed to acquire a former paper mill site in Sweden where it will develop its planned gigafactory, capable of producing 100GWh of cathode materials from late 2024. 

Northvolt will purchase the Kvarnsveden pulp and paper mill and surrounding industrial area in Borlange, which closed in 2021, from Stora Enso and turn it into a manufacturing plant for active material and battery cells. 

The gigafactory is expected to start operations in late 2024 and at full output will be able to produce 100GWh of cathode material annually. The facility’s production volume will contribute to all markets that Northvolt is delivering to including its battery energy storage systems (BESS) arm Northvolt Systems’ assembly plant. 

Northvolt claims it has US$50 billion worth of orders already – US$14 billion from Volkswagen alone – and aims for 150GWh of annual cell production capacity by 2030. The site in Borlange will employ 1,000 people and use 100% renewable power, the company says. 

Peter Carlsson, Co-Founder and CEO of Northvolt, said: “Since Northvolt’s founding, we have focused on circular battery production, but this is the first time we will reuse an entire production site. With its access to energy, industrial water and the broad production know-how in the region, Kvarnsveden is an optimal site for a gigafactory.”

The company, which has raised US$6.5 billion in enquiry financing to-date, produced its first lithium-ion cells at the turn of the year. It also announced a partnership with one of the battery energy storage sector’s largest system integrators Fluence to develop grid storage technology.

It has previously said it wants to manufacture the world’s most sustainable batteries through using renewable but also securing 50% of raw materials from recycled batteries. The company’s strategic approach to the full production value chain was praised by Fluence executive Julian Jansen at Solar Media’s Energy Storage Summit 2022 this week.

European Commission and Norwegian government step up funding for European battery value chain

Northvolt’s announcement coincides with a letter-of-intent between a European Commission body and EIT InnoEnergy to provide €10 million (US$11.26 million) in funding for the European Battery Alliance (EBA) Academy.

The Academy is a programme designed to reskill and upskill Europe’s workforce across the continent’s battery value chain to, in the announcement’s words, “stay ahead of the e-mobility curve.” It adds that 800,000 workers will need to be trained, upskilled or reskilled by 2025 to meet demand for jobs at projects in the pipeline like Northvolt’s.

EIT InnoEnergy is part of the European Institute of Innovation and Technology (EIT). It is one of Northvolt’s investors and has also funded or partnered with other players in the lithium-ion battery space including Vulcan and ElevenEs. Energy-storage.news has interviewed its industrial strategy executive Bo Normark.

Commission Vice-President Maroš Šefčovič, in charge of the European Battery Alliance, commented: “In 2017, the EU battery industry was hardly on the map. Today, Europe is a global battery hotspot, with 20 Gigafactories emerging across our Member States. By 2030, we should be manufacturing enough batteries each year to power some 11 million electric cars, moving full steam ahead towards strategic autonomy in this crucial sector.”

Alluding to recent moves by the EU to ensure higher recycled content in batteries in the continent’s market, he added: “It is also high time to adopt a new regulatory framework, ensuring that only the greenest, best performing and safest batteries make it onto the EU market.” 

The government of Norway, which is part of the European Economic Area (EEA) but not the EU, also recently announced funding for a project aimed at building more sustainable batteries.

Last week, it provided a NOK100 million (US$11.3 million) grant to the ‘Sustainable Materials for the Battery Value Chain’ project. The project partners include battery startups FREYR and Morrow who received NOK39 million and NOK25 million respectively. They are joined by silicones/metals producers Elkem and Norsk Hydro and marine energy storage solution provider Corvus.

The project will cover activities throughout the entire battery value chain, from the production of active battery materials to cell production, modelling of battery degradation, safety and recycling.

Continue reading

Ahead of Construction, Canadian Solar Signs PPA with Brazilian Steelmaker

One of Canadian Solar’s projects, the Oakley Solar Plant in Australia

Canadian Solar Inc.’s Global Energy business group has signed private power purchase agreements (PPA) with Usinas Siderurgicas de Minas Gerais S.A. (Usiminas), one of the largest steelmakers in Latin America, committing 50% of the total electricity production of a 381 MWp solar power project in Brazil.

For this PPA, Canadian Solar will develop and build the 381 MWp Morada do Sol project in the State of Goiás. Construction is expected to start in the first quarter of 2024 and the project is expected to reach commercial operation by January 2025. This is the first corporate PPA signed directly with an industrial customer under the Brazilian self-production framework.

The Morada do Sol project will use Canadian Solar’s high efficiency bifacial BiHiKu modules. Once in operation, the project is expected to generate approximately 790 GWh of clean energy annually.

“While we are working towards our own ESG goals, we are also proud to partner with Usiminas in a tailored solution in the Morada do Sol project to achieve their energy cost reduction and ESG goals,” comments Dr. Shawn Qu, chairman and CEO of Canadian Solar. “This transaction also contributes to enhance our footprint and leading position in the Brazilian market, and demonstrates our capability to continue delivering sustainable, competitive, and innovative solutions to our customers in a country where we have cumulatively developed over 4.1 GWp of projects.”

“This year, as Usiminas celebrates its 60th anniversary, the company is looking to the future and is committed to ensure the sustainability of its operations. Initiatives such as the partnership with Canadian Solar for the supply of solar energy to power our operations are important steps in its journey to be increasingly aligned with the principles of the ESG agenda,” adds Sergio Leite de Andrade, CEO of Usiminas.

Continue reading

ESS Inc posts US$500 million full-year loss; yet to recognise revenue

A render of ESS Inc’s Energy Center product. Image: ESS Inc.

Iron flow battery provider ESS Inc has revealed a US$477 million net loss in 2021, in its first full-year results since becoming a publicly-traded company on the New York Stock Exchange (NYSE). 

The bulk (87%) of this was from losses on the revaluation of warrant, derivative and earnout liabilities, which relate to the listing through a SPAC merger in October. Operating losses were the remaining US$60.9 million and it ended the year with assets of US$250 million of which 95% is cash.

ESS Inc designs, builds and deploys iron flow batteries for long-duration commercial and utility-scale storage requiring 4-12 hours of duration. It claims unlimited cycles with no capacity loss, versus Li-ion’s average of 6,000.

Its Energy Warehouse for commercial and industrial (C&I) customers is a behind-the-meter unit with a capacity of 400KWh. Its 3MW Energy Center for utility-scale applications, pictured above, packs 6MW/74MWh per acre footprint.

Path to near-term revenue

In a results webcast, CFO Amir Moftakhar said that that it shipped five of its utility-scale Energy Warehouse commercial units in the latter part of 2021. However, it had not recognised revenue on any of them for the quarter because customer acceptance had not yet occurred.

CEO Eric Dresselhuys said the company was making “…progress securing new contracts, delivering to customer projects, and ramping up our operations. We have now achieved full customer acceptance at one of the projects where we have installed our Energy Warehouses.” This indicates it will definitely have recognised revenue during the current quarter (Q1 2022).

He added that it expected to ship 40-50 Energy Warehouses in 2022, all of which were contracted. ESS is not guiding on Energy Center orders but said it expects to start shipping those this year.

It began trading on the NYSE after a merger with ACON S2 Acquisition Corp in October, as reported by Energy-storage.news. Its shares sit at US$4.50 with a market cap of US$650 million at the time of writing.

Long-term pipeline and growth goals

After it listed the company ambitiously claimed an US$8 billion pipeline of opportunities for its products. Two notable customers are investor-owned utilities San Diego Gas & Electric (SDG&E) and Portland General Electric (PGE). Both have ordered 3MWh of stored energy capacity which should come online in Q1 and mid-2022, respectively.

ESS also has an 8.5MWh order from Enel Green Power España and a framework agreement with SB Energy for up to 2GWh of flow batteries by 2026.  

The company has also announced ambitious growth forecasts. In a presentation in October, it projected US$37 million revenue in 2021, followed by five years of 150% average CAGR to reach US$3.5 billion in 2027. It expects the vast majority of revenue over the period to be from sales of Energy Centers.

The company is a major player in the long-duration energy storage space which was a hot topic of discussion at Solar Media’s Energy Storage Summit 2022 held in London this week.

Continue reading

Stem Inc offers 2022 guidance up to US$425m but missed 2021 target

Stem offers a combination of its own and third party hardware along with its Athena software platform. Image: Stem Inc / CleanCapital.

Stem Inc saw a 251% increase in revenues for 2021 compared to the previous year and has offered full-year 2022 revenue guidance of between US$350 million and US$425 million. 

The California-headquartered ‘smart energy storage’ provider which mostly equips commercial and industrial (C&I) customers with lithium-ion battery storage, optimised and controlled by its proprietary software platform, Athena, has just reported its fourth quarter and full-year financial results for 2021. 

The company said Q4 2021 was a record quarter, taking in US$216.9 million in bookings, a 400% increase from the same period in 2020 (US$34 million), while revenues for the three month period stood at US$52.8 million, again a record quarterly figure and a 184% increase on US$18.6 million revenues in Q4 2020. 

Along with the financial results disclosure yesterday Stem Inc said the Athena software had been selected for onboarding to up to 1GW/2GWh of energy storage in Texas’ ERCOT market by developer Available Power.

The platform will be used to optimise a total of 100 front-of-the-meter (FTM) sites at industrial and commercial microgrid and distributed energy resources (DER) systems over 20-year contracts. The deal could be worth more than US$500 million by the time deployments are completed. 

The first 20 sites will be equipped with the Athena artificial intelligence (AI)-driven platform early next year and the software’s bidding platform will control the energy storage systems’ participation in wholesale market and energy trading opportunities. Stem Inc will also provide the developer with revenue modelling, consulting on battery hardware and support with project development. 

Causes of delays ‘expected to resolve over time’

Stem Inc publicly listed on the New York Stock Exchange (NYSE) in April 2021 through a special purpose acquisition company (SPAC) merger. At the time, company leadership laid out that the path to profitability was likely to take at least a couple of years to traverse. 

Since the listing it has reported consistent increases in revenues, but also losses in each quarter. The company missed its 2021 revenue guidance of US$147 million, instead bringing in US$127.4 million for the full year. It still represented a 251% increase from 2020 full-year revenues of US$36.3 million. 

Net loss for 2020 had been US$156.1 million, while in 2021 these were US$101.2 million. However adjusted EBITDA had been -US$30.3 million last year versus -US$25.4 million the year before. 

Nonetheless the company has reported a backlog of US$449 million contracted at the end of 2021, which compares very favourably with US$184 million by year-end 2020, it holds 1.6GWh of assets under management and ended 2021 with US$921 million in cash, equivalents and short-term investments.

As with many other companies in the clean energy industries, Stem Inc had seen a negative impact to its fourth quarter revenues from delays in interconnection, permitting and supply chain issues, but company CEO John Carrington said that “demand remains robust and we expect these issues to resolve over time”.

The company said its supply chain is secured into Q4 2022 and expects to be able to secure full year capacity by the end of this quarter. It expects the continuing semiconductor shortage will not impact its supply, while the trend for system manufacturers to diversify their battery cell supplier base 

Stem Inc claims it is on course to execute on more than US$1 billion worth of bookings in the 18 months between July 2021 and the end of 2022, and that its pipeline of opportunities stands at US$4 billion of potential orders. 

Recent activities by Stem Inc reported on Energy-Storage.news include a deal with developer NineDot to enable market participation of 110MWh of BESS in New York’s Value of Distributed Energy Resources (VDER) programme and Stem’s acquisition of US solar asset management software company AlsoEnergy. 

The company also launched an EV charging optimisation solution in August last year and has been bullish on the opportunities ahead in that space, signing a recent deal to collaborate on charging solutions with ENGIE. 

Stem’s shares listed at around US$25 per share at the end of April 2021, but had fallen to US$11.24 by close of trading on 24 February after reaching a US$37 high in July.

Continue reading