Energy Storage
Schaltbau North America
Wind
Jeremy Sheldon
Wind
Bora Tokyay
Over Easy Solar has reached a installation at Science World in Vancouver, Canada — marking the first-of-its-kind vertical solar system of this scale in British Columbia. As part of a major retrofit of this iconic building, our vertical technology is helping bring a 40-year-old structure into a more sustainable future.
This isn’t a standard rooftop installation. The project is part of a broader energy upgrade, combining solar with new heating, cooling, and efficiency measures to significantly reduce the building’s environmental footprint. What makes this installation especially unique is its role as a pilot — testing how vertical bifacial solar performs in low-light conditions, during winter months, and in environments with snow accumulation.

Our vertical system is specifically designed to capture low-angle sunlight in the morning and afternoon, making it particularly effective in northern climates. At the same time, it allows the roof to remain functional and avoids many of the challenges traditional systems face in snowy conditions — opening up new possibilities for solar in regions where it has historically been difficult to implement.
A big thank you to BC Hydro for their strong support, technical expertise, and commitment to driving innovation through pilot projects like this. And of course, to the entire Science World team for their ambition and dedication to transforming their facility into a leading example of sustainable infrastructure.
Projects like this show what’s possible when innovative technology meets forward-thinking institutions — helping accelerate the transition to clean energy, even in the most challenging environments.
Over Easy Solar | https://www.overeasy.no/
The Institute for Solar Energy Research Hamelin (ISFH) has expanded the capabilities of its Calibration and Test Center (CalTeC) to include the calibration of large-area perovskite-silicon tandem solar cells. The expansion addresses the growing demand for reliable efficiency measurements as tandem photovoltaic technologies move from laboratory research toward industrial application.
ISFH CalTeC has been accredited for the calibration of wafer-based silicon solar cells since 2016. During this time, the laboratory has provided calibration services to more than 70 customers from 20 countries and has established itself as an internationally recognized reference laboratory. Since 2018, CalTeC has also been authorized to independently verify photovoltaic conversion efficiencies and has verified 27 world-record silicon solar cell efficiencies.

As wafer-based silicon solar cells have surpassed conversion efficiencies of 28%, research and industrial development is shifting towards tandem photovoltaic concepts, particularly perovskite-on-silicon tandem solar cells. This technology is regarded as one of the most promising pathways for exceeding the efficiency limits of single junction silicon devices and enabling the next-generation photovoltaic products.
A key challenge is the transition from laboratory-scale tandem devices of approximately 1 cm², where efficiencies exceeding 34% have already been demonstrated, to wafer-scale devices with active areas of up to G12 (210 mm edge length). Achieving this transition requires not only advances in device fabrication but also calibration methodologies that address the specific metrological requirements of tandem photovoltaics.
Expanded measurement capabilities for tandem photovoltaics
At the tandemPV Workshop, held in Berlin from June 17–19, 2026, ISFH CalTeC presented its new calibration capabilities for large-area perovskite-silicon tandem solar cells. The laboratory now supports the calibration of tandem devices up to the G12 wafer format, providing calibration services aligned with the needs of both research institutions and industrial R&D.
“Tandem solar cells are much more complex than conventional silicon cells. Specialized calibration is needed to ensure that reported efficiencies are accurate, comparable, and trusted by researchers, manufacturers, and investors,” said Dr. Karsten Bothe, Head of the ISFH CalTeC solar cell calibration laboratory. “We provide the measurement confidence needed to move tandem photovoltaics from laboratory breakthroughs to commercial products.”
The expanded measurement infrastructure addresses several critical aspects of tandem cell characterization, including:
Supporting the commercialization of tandem photovoltaics
By combining internationally recognized calibration expertise with dedicated tandem photovoltaic metrology, ISFH CalTeC provides reliable and traceable efficiency measurements that support technology development, performance benchmarking, and the commercialization of high-efficiency tandem solar cells worldwide.
As tandem photovoltaics continue their transition from laboratory research to industrial manufacturing, robust and standardized calibration procedures will play an increasingly important role. They provide the basis for comparable measurement results, confidence in reported performance data, and support the commercialization of high efficiency tandem solar cells worldwide.
Institute for Solar Energy Research Hamelin | https://isfh.de/en
SolSource Solutions (“SolSource”) announced the expansion of Propel, its simplified prepaid third-party ownership (TPO) financing product for residential solar and battery storage, to additional markets in California and Texas. The expansion builds on the June 18, 2026, launch of Propel in Colorado and Pennsylvania. The broadened coverage now allows customers in the Austin Energy utility district in Texas, and customers of the Los Angeles Department of Water and Power (LADWP) and 16 other utility districts in California, to access the benefits of Propel.
The Propel product replaces payment escalators and hidden fees with a predictable, fixed payment structure. Homeowners prepay a long-term energy agreement with cash or a fixed-payment loan originated through TriBeam Financial, a technology-driven point-of-sale lending platform, receive the value of federal tax credits, and have the option to own the system beginning after year five.
As with the initial launch, Propel is delivered with Enphase Energy as the exclusive provider of microinverter and battery hardware and premium support, Greentech Renewables for national distribution and installer support, and TriBeam Financial for point-of-sale financing.
SolSource will continue expanding Propel to additional states throughout 2026.
Chris Couture, CEO of SolSource Solutions, said:
"California and Texas are two states where homeowners are deeply impacted by rising utility bills. Propel answers by allowing customers to take control of their own energy costs through acquiring solar and storage systems with fixed payments and no hidden fees. Bringing Propel to Austin Energy, LADWP, and 16 additional California districts opens the door for thousands more households. We are just getting started."
SolSource Solutions | https://www.gosolsource.com/
Linea Energy ("Linea"), a U.S.-based renewable energy developer and independent power producer that is sponsored by EnCap Investments L.P. ("EnCap"), announced the closing of a tax equity financing with Crux for its Watertown solar project ("Watertown" or the "Project"). Watertown is a 172 MWdc utility-scale solar energy facility located in Sanilac County, Michigan. The Watertown financing package includes a single-investor tax equity commitment from Crux. This tax equity commitment is the final commercialization transaction for the Watertown project.
Linea previously announced a $299 million project debt raise comprised of a construction-to-term loan, a tax equity bridge loan, and a letter of credit facility. The debt financing was led by Santander Corporate & Investment Banking ("Santander"), with participation from Société Générale, S.A., Norddeutsche Landesbank Girozentrale, and Truist Bank. With this investment from Crux, the total capital raise for the project totals $457 million.
The Watertown project is contracted under a 25-year power purchase agreement ("PPA") with Consumers Energy, a regulated Michigan utility operating under the jurisdiction of the Michigan Public Service Commission.
"Watertown represents exactly the kind of project Linea was built to execute — a large-scale, long-term clean energy asset paired with creditworthy offtake and an efficient financing structure. Linea's acquisition of the Project in December 2024, and subsequent completion of development, commercialization, financing, and conversion to construction reflects the strength and depth of the Linea platform" said Cassidy DeLine, Chief Executive Officer of Linea Energy. "We're proud to be bringing meaningful economic benefits to Sanilac County and clean, reliable power to Michigan consumers. We are grateful to Crux, Santander, and our full financing team for their partnership in getting this project to the construction phase."
"Watertown is a strong example of the high-quality projects that define the market today — long-tenor contracted revenue and a financing structure that brings together the right capital in the right form. We're pleased to support Linea Energy as they bring this project to market and look forward to continuing to deploy capital alongside next-gen independent power producers like Linea as clean energy demand continues to grow," said Yonette Chung McLean, Chief Capital Officer of Crux.
Now under construction, Watertown is expected to support approximately 150 construction jobs and generate enough clean energy to power approximately 25,126 Michigan homes annually on the Midcontinent Independent System Operator ("MISO") grid, roughly equivalent to every home in a city the size of Pontiac. Commercial operations are expected to begin in mid-2027. Over the project's operating life, Watertown is projected to deliver $16.4 million in local property tax revenue to Sanilac County and reduce carbon emissions by approximately 148,389 metric tons annually, supporting a cleaner, more resilient energy grid across Michigan.
This tax equity closing marks another significant milestone in Linea's growth as a leading independent power producer in the U.S. renewable energy market.
Orrick, Herrington & Sutcliffe LLP served as borrower's counsel to Linea Energy. Sidley Austin LLP served as legal counsel to Crux.
Linea Energy | www.lineaenergy.com
Crux | www.crux.com
EnCap Investments | www.encapinvestments.com
Peak Power, a leading battery energy storage development and software company announced the commercial operation of a 3.6 MW / 7.2 MWh lithium-ion battery energy storage system at Vuteq Canada’s manufacturing facility in Woodstock, Ontario. Owned and financed by Madison Energy Infrastructure and operated by Peak Power, the system enables Vuteq Canada to reduce peak electricity costs, participate in demand response programs, and support grid reliability during periods of system stress.
The project also included the installation of six Level 2 electric vehicle chargers at the Woodstock facility through Canada’s Zero Emission Vehicle Infrastructure Program, expanding access to workplace charging for employees and visitors while supporting broader transportation electrification.
The project comes online as Vuteq Canada expands its Woodstock operations with nearly $40 million in capital investment, supported by $5 million in provincial funding, and plans to create 145 new jobs in the region. The facility expansion includes new injection molding machines, collaborative robotics, and AI-enabled manufacturing systems. The battery energy storage system and EV charging infrastructure were integrated alongside this growth to help ensure increased electrification and automation are paired with optimized energy management from day one of expanded operations.
“As industrial facilities electrify, automate, and scale, energy flexibility is becoming a competitive advantage for large industrial operators,” said Derek Lim Soo, CEO, Peak Power. “This project shows how large manufacturers can reduce exposure to peak-driven electricity costs while contributing to a more reliable and resilient grid.”
The system will offset up to 3.6 MW of grid demand during critical peak periods. In Ontario, these periods can drive higher system costs and increased reliance on marginal generation resources. By shifting load away from peak hours and providing flexible capacity, the project is expected to help Vuteq Canada reduce its exposure to Global Adjustment charges, participate in demand response programs, and pursue energy arbitrage opportunities.
Upgrades to on-site electrical infrastructure were completed to support the system’s interconnection, including the addition of two new switchgear bays. The battery will be optimized in real time by Peak Power’s energy management platform, which leverages advanced forecasting and market intelligence to reduce peak demand contribution, respond to market signals, and support system reliability during high-stress periods.
"Madison Energy Infrastructure is proud to bring this project online and support Vuteq's growth alongside Peak Power," said Cameron Bard, Chief Revenue Officer at Madison Energy Infrastructure. "We're committed to serving as their long-term partner to unlock new value, helping them manage costs, strengthen the grid, and modernize the way they use energy."
The project reflects a broader shift in the electricity sector, where large commercial and industrial facilities are moving from passive energy consumers to active participants in electricity markets. As industrial electrification, automation, and AI-enabled manufacturing increase electricity demand, flexible assets like battery storage can help manage cost volatility, reduce peak demand, and support local grid stability.
By reducing grid consumption during peak demand hours, when higher-emitting generation resources are more likely to be dispatched, the system is expected to contribute to avoided marginal emissions over time.
Peak Power | https://www.peakpowerenergy.com
Vuteq Canada | https://www.vuteq.ca/
Madison Energy Infrastructure | madisonei.com
Palladium Energy (Palladium), a leading power developer in the United States, announced the closing of a $66 million development loan facility provided by Voya Investment Management through its renewable energy and sustainable infrastructure debt platform. The financing supports the continued development of a portfolio of advanced-stage projects with executed long-term offtake contracts totaling more than 300 MW in South Carolina, part of a broader, growing pipeline of power and digital infrastructure projects that Palladium is developing across multiple markets. This transaction reflects the strength of Palladium's platform, execution capabilities, and the quality of its project pipeline.
"This financing marks a significant milestone for Palladium and a strong endorsement of the platform we have built, our team's execution capabilities, and the high-value, advanced-stage project pipeline we continue to develop," said Danny Weidlich, co-founder and Chief Executive Officer of Palladium Energy. "We are proud to work alongside Voya, who has been a strong and valued partner throughout this process. Their commitment and support will be integral as we continue to execute on our pipeline of projects and deliver sustainable, renewable energy to communities across the country."
"We are pleased to support Palladium Energy in advancing a high-quality portfolio of utility-scale solar projects. This transaction reflects our continued commitment to financing renewable energy projects and partnering with experienced developers to accelerate the transition to a more sustainable energy system" said Edward Levin, Managing Director and Co-Head Direct Infrastructure, Voya Investment Management.
King & Spalding LLP served as legal counsel to Voya Investment Management. Barnes & Thornburg LLP served as legal counsel to Palladium Energy. U.S. Bank served as administrative agent for the facility.
Palladium Energy | www.pd46energy.com
EverLine, a leading provider of integrated technical services for critical infrastructure, announced the appointment of Ed Wiegele, an infrastructure industry veteran, as chief executive officer. A proven builder and operator of technology-enabled infrastructure businesses, Wiegele will lead EverLine as operators across North America modernize infrastructure to meet rising reliability, physical security, cybersecurity, and energy-demand requirements.

The appointment comes as pipeline and midstream operators, electric utilities, renewable energy developers, maritime, and data center owners accelerate infrastructure investments amid rapidly evolving regulatory requirements, rising power demand, growing operational complexity, and heightened security expectations.
Over the past several years, EverLine has expanded its integrated platform across midstream, electric utility, renewable energy, and emerging data center markets while growing its customer base to serve more than 300 critical infrastructure owners and operators nationwide. In 2025 alone, the company completed more than 16,000 PHMSA-related compliance inspections across more than 7,000 miles of regulated infrastructure.
The company further expanded its capabilities over the past year through transmission operator activities, with generation and NERC compliance operations spanning five of the six U.S. reliability regions and supporting 15,334 MW of generation and transmission assets under active oversight. Through its 24/7 cybersecurity and resiliency operations, EverLine processed millions of security events across thousands of nodes, eliminating an estimated 8,760 internal staffing hours annually per customer architecture.
Wiegele brings four decades of leadership experience across energy infrastructure, operational technology, and technology-enabled services. Most recently, he led Project Development for New Energy Ventures at The Williams Companies (NYSE: WMB), advancing behind-the-meter power generation solutions to support the rapidly growing energy demands of hyperscale data centers.
Prior to Williams, Wiegele founded and served as chief executive officer of Integri-Tek, a leading provider of geospatial consulting, business intelligence, and data management solutions for infrastructure owners and operators. He led the company from inception through its successful acquisition by Magnolia River. Earlier in his career, he held senior and executive leadership roles at TRC Companies, Willbros, GE, MJ Harden Associates, and Panhandle Eastern/Trunkline Gas Company, supporting some of North America's largest energy infrastructure systems.
"Critical infrastructure has become one of the defining operational challenges of our time, and operators across the energy sector are under constant pressure to adapt to changing regulations, defend against evolving cyber threats, maintain reliability, and support unprecedented growth in demand," said Ed Wiegele. "There is little margin for error. Systems must be secure, resilient, and ready to withstand scrutiny at any moment. EverLine occupies a unique position at the intersection of compliance, operations, and cybersecurity, helping customers manage increasingly complex systems with greater confidence, resilience, and operational certainty. I see tremendous opportunity to build on this foundation and help shape the future of critical infrastructure operations."
Wiegele holds a Bachelor of Science in Civil Engineering from Iowa State University.
EverLine | www.everlineus.com
Alternative Energies Jul 06, 2026
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