Repsol and Sunfire are advancing 200 MW of renewable hydrogen projects in Spain, while new collaborations and funding across Europe and India aim to accelerate electrolyzer development and hydrogen infrastructure.

Repsol has approved its second 100 MW electrolyzer at the Petronor industrial complex in Bilbao. “The electrolyzer will have the capacity to produce up to 15,000 tons of renewable hydrogen annually, which will mainly be used at the company’s Petronor refinery outside Bilbao in Northern Spain,” said the Spanish oil and gas company, adding that the new plant for producing renewable hydrogen will require an investment of €292 million ($347.9 million). The company did not explain the timing of the installation.

Sunfire said it will supply two 100 MW electrolyzers for renewable hydrogen projects in Spain. The first project, led by Repsol and Enagás Renovable, will install a 100 MW electrolyzer near Repsol’s industrial complex in Cartagena. The second 100 MW plant will be located at Petronor’s refinery in Muskiz (Bilbao), which is owned by Repsol and Kutxabank,” said the German company. For each of the two 100 MW projects, Sunfire will deliver ten of its 10 MW pressurized alkaline electrolyzer modules.

Matteco and Dunia Innovations have kicked off a strategic collaboration to accelerate the development of catalyst layers used inside AEM (Anion Exchange Membrane) electrolyzers. “Matteco contributes deep expertise in electrocatalysts, functional inks, and scalable electrodes, while Dunia brings its AI-guided experimentation platform, which helps test and compare many different material options quickly and consistently, under conditions that reflect how real electrolyzers operate,” said Spain-based Matteco. Dunia Innovations is based in Germany.

The European Commission said it will allocate nearly €650 million in grants to help finance 14 cross-border energy infrastructure projects. More than €176 million will be dedicated to boost hydrogen infrastructure. “The grant of €120 million for the hydrogen storage in Gronau project in Germany marks the first time CEF funding will be used for a works project for hydrogen,” said the European executive body, adding that other hydrogen projects in Austria, Bulgaria, France, Germany, the Netherlands and Slovakia will receive grants to support studies.

Tubos Reunidos (TR) said it is developing a seamless pipe that meets the specific requirements of the hydrogen sector. “The project aims to develop a 1.25 MW experimental portable electrolyzer, conceived as an enabling solution for the supply of green hydrogen to final industrial users,” said Eurometal, the European federation of steel tubes and metals distribution and trading. “The initiative is being led by a Basque consortium including Tubos Reunidos, ArcelorMittal Sestao, Sarralle, ABC Compresores, Matz-Erreka, Flubetech Coatings, Mugape, Sener, Team Group, Torraval Cooling, and Zigor Corporación.”

Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ) and thyssenkrupp nucera have entered into a new cooperation to accelerate the development of green hydrogen and Power-to-X (PtX) markets in India. “India is one of the most promising future markets for green hydrogen electrolysis. This cooperation enables us to deepen our understanding of the local market and engage more closely with India’s hydrogen ecosystem. It also reflects our strong commitment to supporting India’s ambitious National Green Hydrogen Mission,” said Kiran Paul Joseph, CEO of thyssenkrupp nucera India.

Greenzo Energy India has secured the contract for India’s first port-based 5 MW Green Hydrogen Plant at Deendayal Port, Kandla. The project has been awarded to Oswal Greenzo Energies, the JV between Oswal Energies Limited and Greenzo Energy India Limited. “Designed on an EPC basis, the project is scalable beyond the initial 5 MW up to 10 MW and is expected to produce approximately 800 tonnes of green hydrogen annually,” said Greenzo Energy.

Orlen has entered into cooperation agreements with three Finnish partners for the production and supply of renewable hydrogen and its derivatives. “The agreements signed with ABO Energy Suomi, Nordic Ren-Gas and VolagHy Kuopio SPV will help secure hydrogen supplies during a period of growing demand in the years ahead,” said Orlen.

Powerhouse Energy (PHE) has secured a site on Silverwood Business Park in Ballymena, Northern Ireland, on which the company submitted a planning application for a 40-ton per day (TPD) waste-to hydrogen facility. The site, 1.98 acres, will use a pilot unit.

Scientists have grown organic romaine lettuce under 13 different types of PV modules, in an unusual hot Canadian summer. Their analysis showed lettuce yields increased by over 400% compared to unshaded control plants.

A research group from Canada’s Western University has investigated the performance of organic romaine lettuce, a heat-sensitive crop, under a broad range of agrivoltaic conditions. The test was conducted in London, Ontario, in the summer of 2025, during which 18 days had temperatures over 30 C.

“Our study explores how agrivoltaic systems can be tailored to optimize crop growth, especially under extreme heat conditions, while contributing to sustainable energy generation,” corresponding researcher Uzair Jamil told pv magazine.

“This becomes especially relevant in the context of climate change, where we are experiencing temperature extremes across the world,” Jamil added. “We examined the performance of organic romaine lettuce under thirteen different agrivoltaic configurations – ranging from crystalline silicon PV to thin-film-colored modules (red, blue, green) – in outdoor, high-temperature stress conditions.”

More specifically, the experiment included c-Si modules with 8%, 44% and 69% transparency rate; blue c-Si modules with transparency of 60%, 70%, and 80%; green c-Si modules with transparency of 60%, 70%, and 80%; and red c-Si modules with transparency of of 40%, 50%, 70%, and 80%.

All agrivoltaics installations had a leading-edge height of 2.0 m and a trailing-edge height of 2.8 m, and the modules were oriented southwards at 34◦. Pots with organic romaine lettuce were placed under all configurations, along with three pots fully exposed to ambient sunlight without shading, used as controls.

In addition to measurements against the control, the scientific group has compared the results to the national average per-pot yield for 2022, which included less high-temperature days and was therefore considered typical. Those data points were taken from agricultural census data, which later enabled the researcher also to create nationwide projections of their results.

“Lettuce yields increased by over 400% compared to unshaded control plants, and 200% relative to national average yields,” Jamil said about the results. “60% transparent blue Cd-Te and 44% transparent crystalline silicon PV modules delivered the highest productivity gains, demonstrating the importance of both shading intensity and spectral quality in boosting plant growth.”

Jamil further added that if agrivoltaic were to scale up to protect Canada’s entire lettuce crop, they could add 392,000 tonnes of lettuce.

“That translates into CAD $62.9 billion (USD $46.6 billion) in revenue over 25 years,” he said. “If scaled across Canada, agrivoltaics could also reduce 6.4 million tonnes of CO2 emissions over 25 years, making it a key player in reducing the agricultural sector’s environmental footprint.”

The results of the research work were presented in “Enhancing heat stress tolerance in organic romaine lettuce using crystalline silicon and red, blue & green-colored thin film agrivoltaic systems,” published in Solar Energy.

Cubenergy has launched FlexCombo 2.0, a scalable battery energy storage system for utility, commercial, and industrial applications, offering up to 16 MWh capacity with LFP batteries. Its modular design, advanced BMS, and cloud-based operations enable easy installation, seamless expansion, and efficient grid integration, according to the manufacturer.

Cubenergy, a Chinese manufacturer of battery energy storage systems (BESS), has introduced a new energy block designed for utility, commercial, and industrial (C&I) applications.

The product, named FlexCombo 2.0, uses the company’s 835 kWh FlexCombo D2 batteries. It is available in three configurations: 10, 12, or 12 batteries, providing a total capacity of 8 MWh, 10 MWh, or 16 MWh, respectively.

“With the FlexCombo D2 modular design and parallel architecture, FlexCombo’s core advantage lies in its long-term scalability,” the company said in a statement. “It enables seamless capacity growth and effortless integration with power generation systems (PGS), simplifying deployment and accelerating delivery for ultimate flexibility.”

The FlexCombo D2 batteries feature lithium iron phosphate (LFP) chemistry, offering a lifespan of 8,000 cycles at 70% capacity retention, according to the manufacturer.

Each battery measures 2 m x 1.68 m x 2.55 m and has a weight of up to eight tons. They carry an IP55 protection rating. Each block also comes with a power conversion system (PCS) rated at 430 kW AC with an IP66 protection grade. Optional medium-voltage (MV) transformers are available, with AC power ratings of either 8,800 kVA or 5,250 kVA.

“The FlexCombo 2.0 is designed primarily for utility and C&I applications, including renewable energy arbitrage, stand-alone grid stabilization, factories, and commercial buildings,” the company stated. “This integrated, easy-to-install BESS can be quickly connected and aligned with project requirements, while the advanced Active Balancing battery management system (BMS) and cloud-based operations provide a superior user experience.”

Sweden deployed less solar in 2025 than the year prior despite record growth in the large-scale segment. Solar association Svensk Solenergi predicts last year was likely the bottom of Sweden's installation curve.

Sweden commissioned 652 MW of new solar last year, according to estimates from Swedish solar association Svensk Solenergi. The figure is down on the 848 MW installed in 2024 and takes cumulative capacity to around 5.4 GW.

Residential installations totaled 239 MW in 2025, a 39% year-on-year decrease. Alex Jankell, head of politics at Svensk Solenergi, told pv magazine the household market has been impacted by the removal of a tax rebate scheme as of the start of this year. He added that lower energy prices in comparison to massive hikes in 2022, higher interest rates and inflation have also impacted the market segment.

Although the residential market contracted in 2025, installations smaller than 20 kW continue to represent more than half of Sweden’s solar market, with a little over 3 GW of total capacity. There are now just over 287,000 solar power plants of less than 20 kW in Sweden, equivalent to 90% of all grid-connected solar plants.

Commercial and industrial installations reached 215 MW in 2025, down 35% year-on-year, but utility-scale installations increased, deploying a record 198 MW for 46% more than in 2024.

The large-scale segment accounted for 30% of new solar power in 2025, compared to 7% in 2024. New installations were led by Sweden’s largest solar plant to date, the 100 MW Hultsfred solar farm, and the 64 MW Ax-el solar park. Last year also saw developer Svea Solar announce plans to build eight new solar parks in Sweden with a total capacity of approximately 500 MW.

Jankell said the market is experiencing a shift to more large-scale solar, often combined with large-scale battery installations, but added that challenges remain in high costs or long waiting times for grid connections. He recommended Sweden adopt proposed changes to permitting procedures to make them quicker and more predictable.

The residential battery market is also broadening, with preliminary figures from the Swedish Tax Agency showing around 75,000 private individuals received a green reduction for battery installations in 2025, a 34% increase on the previous year.

Jankell suggested that Sweden’s solar market could be supported further by abolishing energy tax for all electricity that is produced and consumed behind the same meter and implementing proper power-tariffs which reflectively reward the ability of solar and battery installations to help the grid. He also recommended proposed proper revenue frames for Swedish grid companies that reward flexibility, and not only grid expansion.

Jankell told pv magazine more solar is likely to be installed this year than in 2025. “Given the implementation of solar demands in the Energy Performance of Buildings Directive, new permitting processes on the way, and a general deflation of PV and battery prices, we predict that 2025 is the bottom of the installation curve,” he said.

The South Korean giant said its new EHS All-in-One provides air heating and cooling, floor heating, and hot water from a single outdoor unit. It can supply hot water up to 65 C in below-zero weather.

South Korean tech giant Samsung has launched a new all-in-one heat pump for residential and commercial use.

Dubbed EHS All-in-One, the system provides air heating and cooling, floor heating, and hot water from a single outdoor unit. It is initially released for the European market, with a Korean rollout expected within a year.

“It delivers stable performance across diverse weather conditions. It can supply hot water up to 65 C even in below-zero weather and is designed to operate heating even in severe cold down to -25 C,” the company said in a statement. “The system also uses the R32 refrigerant, which has a substantially lower impact on global warming compared with the older R410A refrigerant.”

The product is an upgrade to the EHS Mono R290 monobloc heat pump that the company released in 2023. The company has enlarged the propeller fan and used a high-capacity motor in the novel model, reducing the number of fans from two to one. That results in a design with a height of about 850 mm, approximately 40% lower than before.

“The system also introduces a new Heat Recovery feature, which does not release waste heat from the cooling process to the outside but recycles it. Using this feature can boost the energy efficiency of water heating by more than twice under certain conditions,” Samsung added. “It also includes an ‘AI Saving Mode’ that can reduce energy consumption by up to 17%.”

Helioplant will leverage SolarEdge’s inverter and power optimization technology to power its cross-shaped bifacial solar system specially designed for snowy Alpine regions with high elevation. They anticipate ski resorts will be a big market for the solution which uses SolarEdge's technology to overcome shading issues caused by the cross-structure.

The first large-scale installation combining SolarEdge technology and Helioplant’s design is already under construction, and on completion the 6.3 MW system will power three ski resorts in Sölden, Austria.

SolarEdge and Helioplant foresee significant demand for their system from ski resorts located in snowy, mountainous areas where conventional PV installations are a challenge. Standard linear PV systems tend to lose productivity with extreme Alpine conditions, such as snow drifts caused by rapidly changing wind conditions. They are also often difficult, and therefore more expensive, to build in challenging terrain areas.

Helioplant’s cross design, which resembles a tree or a flagpole with four wings, features 15 or 16 bifacial modules depending on the slope. The cross-shaped structure creates air turbulence even at low wind speeds, which prevents snow build-up from accumulating and decreasing efficiency. Snow around the base of the tree-like structure reflects light to the underside of the modules to further boost energy yields in what is known as the albedo effect.

Helioplant piloted an installation with 12 bifacial tree-like structures at 2,850 m in Sölden underneath the Tiefenbach glacier in Austria’s Ötztal Valley in 2023. The PV system powered a ski-lift for an entire season, reducing reliance on grid electricity. It was powered by SolarEdge’s technology.

The 6.3 MW installation now under construction in Austria has around 800 of Helioplant’s structures set at an altitude of 2,850 m to 3,000 m. Completion is expected in the second half of this year, and the installation will cover around one third of the three ski resorts’ annual energy needs – approximately 28 GWh.

Patrick Janak, Head of C&I DACH at SolarEdge said that by combining Helioplant's bifacial structures with SolarEdge inverter and power optimizer technology, the two companies “are bringing superior economics to the table to unlock this largely untapped market.” He claimed that conventional PV systems would not work in this scenario.

“Bifacial PV systems are ideal for alpine regions because they can capture both direct sunlight and reflected light from snow, boosting overall energy yields. With our patented cross-shaped support structure, our solar panels stay snow-free providing maximum yields of clean solar energy to offset the high electricity demands of busy ski resorts. With around 6,000 ski resorts worldwide, there is enormous market potential,” said Florian Jamschek, Co-Founder of Helioplant.

Jamschek added that SolarEdge's technology made it possible to address the problem of shading on the panels which he said is exacerbated by the tree-like structure. “While our tree-like structure for bifacial PV addresses the challenges of solar in high-altitude alpine regions, it also is susceptible to more shading on the panels. The only solution to overcome this problem and maximize energy yields was to incorporate SolarEdge technology. This means we can deliver on our promise to supply reliable and stable clean energy that ski resorts can rely on to offset their high energy demands.”

As artificial intelligence reshapes how organizations generate value from data, a quieter shift is happening beneath the surface. The question is no longer just how data is protected, but where it is processed, who governs it, and how infrastructure decisions intersect with national regulation and digital policy.

Datalec Precision Installations (DPI) is seeing this shift play out across global markets as enterprises and public sector organizations reassess how their data center strategies support both AI performance and regulatory alignment. What was once treated primarily as a compliance issue is increasingly viewed as a foundational design consideration.

Sovereignty moves upstream.

Data sovereignty has traditionally been addressed after systems were deployed, often resulting in fragmented architectures or operational workarounds. That approach is becoming less viable as regulations tighten and AI workloads demand closer proximity to sensitive data.

Organizations are now factoring sovereignty into infrastructure planning from the start, ensuring data remains within national borders and is governed by local legal frameworks. For many, this shift reduces regulatory risk while creating clearer operational boundaries for advanced workloads.

AI raises the complexity

AI intensifies data governance challenges by extending them beyond storage into compute and model execution. Training and inference processes frequently involve regulated or sensitive datasets, increasing exposure when data or workloads cross borders.

This has driven growing interest in sovereign AI environments, where data, compute, and models remain within a defined jurisdiction. Beyond compliance, these environments offer greater control over digital capabilities and reduced dependence on external platforms.

Balancing performance and governance 

Supporting sovereign AI requires infrastructure that can deliver high-density compute and low-latency performance without compromising physical security or regulatory alignment. DPI addresses this by delivering AI-ready data center environments designed to support GPU-intensive workloads while meeting regional compliance requirements.

The objective is to enable organizations to deploy advanced AI systems locally without sacrificing scalability or operational efficiency.

Regional execution at global scale

Demand for localized, compliant infrastructure is growing across regions where digital policy and economic strategy intersect. DPI’s expansion across the Middle East, APAC, and other international markets reflects this trend, combining regional delivery with standardized operational practices across 21 global entities.

According to Michael Aldridge, DPI’s Group Information Security Officer, organizations increasingly view localized infrastructure as a way to future-proof their digital strategies rather than constrain them.

Compliance as differentiation

As AI adoption accelerates, infrastructure and governance decisions are becoming inseparable. Organizations that can control where data lives and how AI systems operate are better positioned to manage risk, meet regulatory expectations, and move faster in regulated markets.

DPI’s approach reflects a broader industry shift: compliance is no longer just about meeting requirements, but about enabling innovation in an AI-driven environment.

To read DPI’s full perspective on data sovereignty and AI readiness, visit the company’s website.

The post Why Data Sovereignty Is Becoming a Strategic Imperative for AI Infrastructure appeared first on Data Center POST.

The UK government announced it has injected £36 million to increase the power of one of the UK’s leading supercomputing centres sixfold. This includes backing a new National Computational Resource supercomputer ....

The post UK Invests £36M in AMD-Powered Supercomputer at the Univ. of Cambridge appeared first on Inside HPC & AI News | High-Performance Computing & Artificial Intelligence.

Jan. 22, 2026 — Nokia, an IP networking and AI-HPC data center fabric provider, and Hypertec, an AI and HPC infrastructure company, today announced the deployment of Nibi, an advanced supercomputing cluster at the University of Waterloo in Ontario. The system is designed to support more than 4,000 researchers annually, expanding Canada’s capacity to advance […]

The post Nokia and Hypertec Group Install ‘Nibi’ Supercomputer Cluster at the University of Waterloo appeared first on Inside HPC & AI News | High-Performance Computing & Artificial Intelligence.

As 2025 comes to a close, Tim Hickinbottom, Head of Strategic Accounts at Datalec Precision Installations (DPI), is reflecting on a milestone year both personally and professionally. With nearly four decades in the digital infrastructure and technology sector, Hickinbottom’s perspective offers insight into how experience, adaptability, and long-term vision continue to shape growth in an evolving industry.

A Career Built on Experience and Adaptability

Hickinbottom’s career began in 1986 at Compucorp and includes formative years in the Royal Navy and with British Aerospace in Saudi Arabia. These early experiences helped shape a leadership approach grounded in resilience, discipline, and adaptability. These are qualities that remain critical as data center and mission-critical services grow more complex and globally connected.

A Defining Year 

In 2025, DPI sustained its year-on-year growth while expanding into new regions. The launch of operations in APAC, continued momentum in the Middle East, and steady growth across Europe marked one of the company’s busiest periods to date. By year-end, DPI expects to operate 23 entities worldwide, with further expansion already underway.

According to Hickinbottom, this progress reflects both strong market demand and a deliberate strategy focused on operational discipline and long-term stability.

Strategy, Engagement, and Sustainability

Behind the visible growth is a leadership team focused on reinvestment and sustainable expansion. While much of this work occurs behind the scenes, evolving strategies and internal alignment are shaping DPI’s direction.

Throughout the year, DPI reinforced its global presence at major industry events including Datacentre World and GITEX conferences across multiple regions. At the same time, the company advanced its sustainability efforts, earning recognition from CDP and EcoVadis and preparing to share its Science Based Targets.

“These initiatives matter deeply to our clients and partners,” Hickinbottom notes, emphasizing accountability and environmental stewardship as core elements of industry leadership.

Looking Ahead to 2026

As DPI looks toward 2026, Hickinbottom remains optimistic about the challenges and opportunities ahead. With hard work embedded in the company’s culture and a clear focus on innovation, DPI is positioned to continue supporting data center operators and digital infrastructure stakeholders worldwide.

“Work should be enjoyable,” Hickinbottom reflects. “It’s been an incredible journey so far, and I’m excited for what’s next.”

To explore Hickinbottom’s full reflections on 2025 and his perspective on the year ahead, read the complete blog on Datalec Precision Installations’ website here.

The post Reflecting on a Year of Global Growth at Datalec Precision Installations appeared first on Data Center POST.

In an era where sustainability is no longer just a buzzword but a business imperative, the data center industry is under increasing pressure to demonstrate measurable environmental progress. Datalec Precision Installations (DPI), a provider of world-class global data center design, supply, build, and installation services, has taken a significant step in this direction. The company announced this week that it has been recognized for its transparency on environmental issues with a ‘B’ score from CDP Worldwide, the global non-profit that runs the world’s leading environmental disclosure system.

A Benchmark for Transparency

DPI’s ‘B’ rating in the climate change category places it among a select group of organizations demonstrating “Management” level stewardship. This score indicates that Datalec is not just aware of its environmental impact but is taking coordinated action on climate issues.

The achievement is notable given the rigour of the CDP process. In 2025, nearly 20,000 companies were scored, with CDP’s methodology widely considered the gold standard for corporate environmental reporting. By aligning with the Task Force on Climate-related Financial Disclosures (TCFD) framework, CDP scores are a critical metric for the 640 institutional investors – representing over $127 trillion in assets – who use this data to inform their investment and procurement decisions.

Driving an Earth-Positive Economy

For the data center sector, where Scope 3 emissions and supply chain transparency are critical challenges, DPI’s disclosure represents a commitment to the future.

“We are proud to receive a B score from CDP, which is a meaningful recognition of the tireless and consistent work of our entire team towards achieving our ESG goals,” said Tim Hickinbottom, DPI ESG Group Lead. “Transparency and accountability are at the heart of our sustainability strategy, and this result reflects our commitment to driving positive environmental impact. While we celebrate this milestone, we remain focused on continuous improvement and advancing sustainable practices.”

The Importance of Disclosure

Sherry Madera, CEO of CDP, emphasized that these scores are about more than just accolades. They are about future-proofing operations. “A CDP score is a sign of commitment to high-quality data that enables companies to take earth-positive economic decisions,” Madera noted. “Tackling environmental risks head-on will create a more resilient economy and increase companies’ ability to innovate and invest.”

To learn more about Datalec’s services and sustainability initiatives, visit www.datalecltd.com.

The post Datalec Precision Installations Earns ‘B’ Score from CDP, Reinforcing Commitment to Environmental Transparency appeared first on Data Center POST.

The European Commission is advancing market matching for renewable and low-carbon hydrogen by inviting European offtakers to signal supply interest under the Hydrogen Mechanism, while Germany’s electrolysis rollout continues to lag official targets despite new EU-backed funding schemes.

The European Commission said it is inviting European offtakers to express interest in supply offers under the Hydrogen Mechanism, adding that the current phase runs until March 20, 2026, under the EU Energy and Raw Materials Platform that links buyers with suppliers of renewable and low-carbon hydrogen and derivatives including ammonia, methanol, eMethane and electro-sustainable aviation fuel, after companies submitted supply offers from more than 260 projects from Nov. 12, 2025, to Jan. 2, 2026, with the European Commission set to outline further details at an online webinar on Jan. 27. Separately, the European Commission has also approved a €200 million ($234.9 million) German plan to support the production of renewable hydrogen and its derivatives in Canada. “The scheme will support the construction of up to 300 MW of electrolysis capacity. The aid will be awarded through a competitive bidding process, planned to be concluded in 2027,” wrote the European executive body.

The Institute of Energy Economics at the University of Cologne (EWI) said Germany’s rollout of electrolysis capacity is progressing far more slowly than planned. The institute said installed electrolyser capacity currently stands at 181 MW, with a further 1.3 GW having reached a final investment decision (FID) or being under construction. On that basis, EWI said total operating capacity could reach up to 1.5 GW by the end of 2027, leaving Germany on course to fall well short of its target of 10 GW of electrolysis capacity by 2030.

BKW plans to take a 40%stake in the planned hydrogen-ready (H2-ready) gas-fired power plant at the Hamm site (North Rhine-Westphalia), Germany. “BKW is developing the project together with the German municipal utility cooperation Trianel,” said the German company. “The location offers ideal conditions: sufficient space, existing grid and gas connections, and a well-developed infrastructure.”

Lhyfe said it expects to increase by 70% its installed renewable hydrogen production capacity in 2026. The French company currently has four renewable hydrogen production sites installed in France and Germany (21 MW). “Lhyfe has been supplying France’s first motorway hydrogen station accessible to heavy goods vehicles, operated by TEAL Mobility, since November 2025”, said the company this week, underlining that the four sites received RFNBO certifications in May and September 2025.

Honda Motor said it has decided to discontinue production, before the end of 2026, of the current model of fuel cell system now produced at Fuel Cell System Manufacturing, a joint venture between Honda and General Motors (GM). “After the discontinuation, Honda will utilize the next-generation fuel-cell system being developed independently by Honda”, said the Japanese company, referring to the joint venture established in January 2017 in Brownstown, Michigan.

CHN Energy, via its subsidiary Guohua Energy Investment, is constructing a solar project above a tea plantation in southwestern China, with the first 32 MW now connected to the grid. 

China's state-owned CHN Energy has switched on the first 32 MW of an agrivoltaic project constructed among tea terraces.

Located at the Mengsheng Farm in Cangyuan County within the Yunnan province of southwestern China, the project spans an over 666,000 m2 area across a tea plantation. The solar arrays are mounted uniformly at a height of 2.5 meters, allowing mechanized farming to continue underneath.

Construction began in August, with Guohua Energy Investment, a subsidiary of CHN Energy, leading investment and development. Once fully operational, the solar project is expected to feed back approximately 85,000 TWh of energy annually to the local power grid.

A statement on CHN Energy’s website says the integrated solar-plus-tea plantation model creates a positive micro-cycle system in which the solar panels provide moderate shade that helps improve tea quality, while maintenance of the tea plantation offers environmental protection for the solar array.

The statement adds that the project is also increasing local residents income through land lease payments, direct employment opportunities and skills training.

Wood Mackenzie highlights a groundbreaking 5.2 GW solar-plus-storage project in the UAE capable of delivering 1 GW of continuous baseload power, signaling a potential shift in renewable energy deployment despite high costs. The report also forecasts strong global solar growth through 2030, including the rise of residential “balcony solar” in the U.S. and expanded solar shares in Asia Pacific and the U.S.

Wood Mackenzie has said it that a massive solar-plus-storage project currently under construction in the UAE will “redefine baseload power.”

The prediction is one of three Wood Mackenzie has published as part of its “Global solar: Key things to look for in 2026” report.

The 5.2 GW solar plus 19 GWh battery energy storage project, under development by Masdar and Emirates Water and Electricity Company (EWEC), which broke ground in October, is the world’s first first gigawatt-scale renewable project engineered to deliver 1 GW of continuous, around-the-clock baseload power.

Michelle Davis, global head of solar for Wood Mackenzie, said the project represents a structural shift in hybrid project development in the region.

Davis noted that while the project is currently too expensive to replicate broadly, at roughly six times the cost of a new gas-fired combined-cycle gas turbine plant, successful project execution and continued cost declines could redefine baseload power.

“Despite the challenging events of 2025, solar market fundamentals and demand will remain strong in 2026, especially as the global economy continues to electrify,” Davis concluded.

The report also forecasts solar to play a major role in meeting the electricity load growth anticipated over the next decade in several regions of the globe.

Annual solar generation, including distributed solar, is expected to grow by 232 GWh, of 65%, in the U.S. between 2026 and 2030, according to Wood Mackenzie’s analysis. This will bring solar closer to gas, which makes up the largest share of electricity generation in the U.S., which is expected to grow by 340 GWh, or 21%, over the next four years.

In the Asia Pacific, solar made up 11% of the power generation mix in 2025 and is forecast to grow to 17% by 2030. Wood Mackenzie expects solar, wind and storage to make up a third of the power generation mix in the region by the end of the decade, having accounted for less than 10% in 2020. The analysis say new power capacity in the region is overwhelmingly directed towards solar due to price competitiveness.

Wood Mackenzie’s final prediction for 2026 is that balcony solar, or plug-in-solar, will begin to take a foothold in the US this year, while continuing its market penetration in Europe.

The market research company explains that prior to early 2025, there was no market for balcony solar in the U.S.. Utah became the first state to enable residential customers to utilize portable solar generation devices that produce up to 1.2 kW of power without the need for a utility interconnection agreement last March, with more than a dozen states introducing similar legislation since.

Wood Mackenzie expects this number to continue growing but also warned that key challenges lie in fragmented electrical standards, lower voltage in U.S. homes, and a larger share of single-family homes without balconies.

EU solar generation increased by over 20% for the fourth year running in 2025, with its share in the energy mix surpassing coal and hydro. For the first time in history, solar and wind generated more energy in the EU than fossil fuels.

Solar generated a record 369 TWh of energy across the EU in 2025, according to the European Electricity Review published by energy think tank Ember.

The result is an increase of 62 TWh on 2024 and more than doubles the 145 TWh generated in 2020. Ember says solar energy has grown at an average annual growth in generation of 21% over the past five years, a rate far beyond any other energy source.

This growth trajectory, buoyed by an added 65.1 GW of solar in the EU last year, led solar to generate a record 13% of the bloc's power in 2025, moving ahead of coal and hydro. Every EU country saw growth in solar generation increase year-on-year last year, led by Hungary with a 28% contribution to its power mix. In Cyprus, Greece, Spain and the Netherlands, solar’s share in the electricity mix was also over 20%. 

For the first time in history, solar and wind energy generated more EU electricity than fossil fuels in 2025, together responsible for a record 30% of EU power ahead of fossil fuels’ 29%. Solar and wind generated more electricity than all fossil sources in 14 of the EU’s 27 member states.

Report author Beatrice Petrovich said the milestone shows just how rapidly the EU is moving towards a power system backed by wind and solar. “As fossil fuel dependencies feed instability on the global stage, the stakes of transitioning to clean energy are clearer than ever,” Petrovich said.

In 2025, 19 EU countries recorded at least one hour when wind and solar combined accounted for over 70% of the country's hourly power generation, compared to only two countries in 2020. Ember found wind and solar supplied more than half of electricity generation during at least one third of all hours in Denmark, Estonia, Germany, Greece, Lithuania, Luxembourg, the Netherlands, Portugal and Spain. 

Ember’s report adds that all renewable sources, comprising solar, wind, hydro, bioenergy and other renewables, generated a total 1,331 TWh of energy in the EU last year for a 47.7% share of the total mix, 0.2% down on the year prior. The report says the share remained stable as the weather conditions that caused a drop in wind and hydro output boosted solar generation.

While gas generation rose by 8% compared to 2024, pushing the EU power sector’s gas import bill up to €32 billion, coal power fell to a historic low of 9.2%, with 19 EU countries now generating less than 5% of their energy from coal.

As solar and wind energy becomes the backbone of Europe’s power system, Ember’s report says electricity storage, together with grid enhancements and demand flexibility, will be crucial to put increasingly abundant renewable power to use and displace imported fossil power.

Among a series of recommendations listed in the report is removing barriers to battery deployment in national legislation, EU member states collaboration on permitting for key cross-border power lines, supporting investment in heat pumps and other electric technologies, introducing policy for electrifying transport, heating, and industry via the forthcoming Electrification Action Plan and delivering legislation to ban Russian gap and LNG imports by 2027.

A report from McKinsey and Company says the relative ease of building out solar projects means the U.S and Europe are likely to meet their end-of-decade deployment targets, despite current pipeline gaps of around 205 GW and 181 GW.

The US and Europe are likely to meet their 2030 solar targets despite current project pipelines being smaller than their end-of-decade targets, according to a report from global management consulting firm McKinsey and Company.

McKinsey’s “Tracking the energy transition: where are we now?” report analyzes the pathway of solar, wind and battery energy storage system (BESS) technologies towards the 2030 deployment targets set by China, the United States and the EU-27, Norway, Switzerland and the UK in Europe.

It says the US is currently around 254 GW away from its 2030 target while Europe is around 275 GW away. In contrast, China has already more than doubled its 2030 target.

Despite the US and Europe currently lacking enough announced capacity to meet their 2030s targets, by around 205 GW and 181 GW respectively, McKinsey's analysis says they are still likely to find this additional capacity and reach their end-of-decade thresholds thanks to the ease of building out solar.

“While it is easier to track project build-out for other clean energy technologies, data visibility for solar is more limited due to individual household use and ease of build-out,” McKinsey’s report explains. “For example, a consumer can install household solar in two months. This means that the announced capacity may be underestimated in this analysis.”

Diego Hernandez Diaz, a partner at McKinsey, told pv magazine that while core markets will continue their build out, further demand growth will also occur in less saturated core markets such as Poland. “The advantage of some of these elements is that the more nascent markets can have a better economic trade off and can be built in an economically pragmatic way,” he explained.

The report does acknowledge that this growth trajectory is not guaranteed, citing supply chain risks, tariffs, shifting policy focus and growing political uncertainty as factors that can slow down progress. Hernandez Diaz added there will likely be an effect from shifting regulation across the board.

“Perhaps more importantly, however, is that beyond any regulation, what we continue to see is that if the underlying economics work, then deployment accelerates,” he stated. “All major geographies covered in the report have the underlying fundamentals to support accretive deployment of further renewable energy sources.”

The report also notes that the battery energy storage system (BESS) pipeline is growing rapidly across China, the US and Europe, but remains behind what is needed to meet 2030 targets. McKinsey estimates around an additional 123 GW is required in China, 154 GW in the US and 221 GW in Europe.

The analysts says BESS remains the dominant question mark but can be sited, permitted, constructed, and interconnected far faster than technologies such as nuclear or gas with carbon, capture, utilization and storage (CCUS) contributing to its rapid growth in recent years.

The report attributes the rapid acceleration of BESS installation to a positive business case for both large-scale operators and households when paired with solar. “Load balancing is also becoming a popular source of revenue for battery operators,” the report adds. “Planning and integrating BESS with renewable rollout is critical if 2030 net-zero targets are to be met.”