Energy Storage
Schaltbau North America
Wind
Ole Binderup
Solar
Sun Ballast
Canada’s 100 largest publicly traded companies will require 7.7 gigawatts (GW) of renewable electricity by 2040 to meet their greenhouse gas reduction targets, enough to power 1.88 million Canadian homes. More than half of that demand must be secured by 2030, according to a new report from the Business Renewables Centre-Canada.
The report, From Pledge to Power: Translating ESG Goals into Renewable Energy Demand, offers a national analysis of how corporate climate targets translate into real electricity demand. It highlights a significant and time-sensitive opportunity for provinces to attract billions in clean energy investment, thousands of jobs, and millions in new revenue for municipalities across the country.
Beyond the direct benefits of building clean power projects, provinces that enable corporate renewable procurement also attract continued capital investment and jobs from companies seeking reliable, low-cost clean power to run their operations.
Our analysis reveals a major requirement for renewable energy in the coming years. At 7.7 GW of corporate demand identified, this represents more than a doubling of current solar capacity across Canada over the next five years. Corporations and institutions nationwide are committed to large-scale procurement of renewable energy. The main challenge faced by these corporations is whether governments across the country will implement policies that either enable or block this opportunity.
Business Renewables Centre-Canada | https://businessrenewables.ca/
RecycLiCo Battery Materials Inc. (“RecycLiCo” or the “Company”) (TSX.V:AMY | OTCQB:AMYZF | FSE:ID4), a critical mineral refining and lithium-ion battery upcycling company, is pleased to announce that it has contracted Rain City Industrial to lead the design and construction of the Company’s new laboratory facility at its recently acquired headquarters and operations center in Delta, B.C.
The new lab will expand RecycLiCo’s capacity to advance its critical minerals and metals resource recovery technologies. Rain City Industrial, a leading engineering and construction services provider, brings specialized expertise in industrial design, safety, and quality assurance to deliver a facility that aligns with RecycLiCo’s high sustainability and efficiency standards.
“This is an essential step in our becoming a significant contributor to the establishment of a resilient circular supply chain for critical minerals,” said Richard Sadowsky, Interim CEO of RecycLiCo. “By partnering with Rain City Industrial, we are ensuring that our technical team has the infrastructure to scale our innovations from bench to market-ready solutions, support our partners in project-planning and implementation, and to continue the research and development that will keep our technology relevant in a fast-changing world.”
The laboratory will be designed with flexibility to accommodate multiple stages of research, process testing, and product qualification. It is expected to play a pivotal role in supporting the Company’s Clean Spot™ technology, enabling efficient recovery of lithium, nickel, cobalt, manganese, and other critical minerals and metals from mined ore, black mass and production scrap.
“Rain City Industrial is proud to partner with RecycLiCo on the development of its new laboratory facility in Delta, B.C.,” said Andrew Laurie, Vice President of Business Development and Partner of Rain City Industrial. “Our team is committed to delivering a state-of-the-art environment that not only meets the highest standards of safety and efficiency but also supports the advancement of innovative clean technologies. By combining our expertise in industrial design and construction with RecycLiCo’s vision for sustainable resource recovery, we look forward to creating a facility that will help accelerate their operational goals and long-term growth.”
The project is now underway, with RainCity Industrial leading the engineering and design phase prior to construction.
RecycLiCo Battery Materials I https://recyclico.com/
TurnOnGreen, Inc. (OTC: TOGI) (“TurnOnGreen” or the “Company”), in partnership with Indiana-based Total Energy Solutions Corporation (TESCO), announced an expansion of its Level 2 electric vehicle (“EV”) charging infrastructure across Purdue University (“Purdue”), a leading public research university in West Lafayette, Indiana. The Purdue campus now features an expanded mix of TurnOnGreen’s EVP700G (32-amp) chargers in multiple parking garages and EVP1100 (48-amp) chargers installed at the Purdue University Airport and Boilermaker Golf Complex, intended to enhance access to reliable EV charging across the university.
From 2023 to 2024, TurnOnGreen’s EV chargers at Purdue dispensed a total of 44,999 kWh of electricity, reflecting strong utilization of EVs on campus. In 2025, the university projects dispensed over 50,000 kWh, further reducing reliance on fossil fuels and supporting Purdue’s broader climate and sustainability goals.
“We are proud to partner with Purdue University to offer affordable, reliable, and customizable EV charging solutions,” said Marcus Charuvastra, President of TurnOnGreen. “By combining advanced charging technology with strong user adoption, Purdue is demonstrating how universities can lead in building the next generation of sustainable transportation infrastructure.”
“Partnering with TurnOnGreen to bring this project to life at Purdue University has been an incredible opportunity,” said Kris Bowen, CEO of TESCO. “Our dedicated team of professionals provides installation and on-site technical support to support a seamless rollout and continuity of operations. This project underscores our commitment to advancing clean energy infrastructure in Indiana.”
TurnOnGreen provides EV charging solutions for universities, municipalities, businesses, and fleets across North America. The Company’s Energy Star Certified chargers are backed by internationally recognized safety and performance certifications, certifying as to dependable service in diverse environments.
According to the U.S. Department of Energy, universities are essential to EV adoption by providing accessible charging hubs that serve students, faculty, and surrounding communities.
TurnOnGreen | www.turnongreen.com
Total Energy Solutions Corporation | https://tesco-solutions.com/
Clean Energy Technologies, Inc. (Nasdaq: CETY) (the “Company” or “CETY”), a clean energy technology company delivering scalable solutions and technologies in power generation, storage, waste-to-energy, and heat-to-power, announced that it has entered into a Letter of Intent (LOI) with Lease Advisory Group (LAG) to serve as the Engineering, Procurement, and Construction (EPC) contractor for multiple Battery Energy Storage System (BESS) projects in New York.
The projects, located across New York State, represent a significant milestone for CETY’s clean energy infrastructure business. The Company anticipates that each site is expected to integrate 5MW / 20MWh of energy storage, paired with rooftop solar and electric vehicle charging loads.
These systems will be designed to generate revenue through New York State’s Value of Distributed Energy Resources (VDER) program and ancillary grid services, while also supporting reliability, resilience, and decarbonization of the state’s power grid.
Under the LOI, CETY will provide a full scope of EPC services, including:
“This award demonstrates CETY’s growing role as a trusted EPC partner for large-scale energy storage projects,” said Kam Mahdi, CEO of CETY. “Battery storage is critical to balancing renewable generation with grid demand, and these projects should place us at the center of New York’s clean energy transition.”
With this award, CETY continues to expand its portfolio of advanced clean energy projects, delivering technologies that bridge renewable generation, grid stability, and electrification infrastructure.
Clean Energy Technologies | www.cetyinc.com
Paired Power, a solar-powered microgrid systems and software manufacturer, has partnered with PHNXX, an Australia-based designer and manufacturer of modular microgrid systems, to create PairPHNXX, the only portable microgrid solution requiring no assembly currently on the market.
PairPHNXX can be set up and installed in a day to power electrical systems with limited or no grid connection, including ranching and farming operations, construction, mining, and military applications. Other uses include emergency management and response and powering off-grid or remote communities that have little to no energy infrastructure.
Recognizing the potential PairPHNXX has for powering community facilities, essential services, and homes & schools, Paired Power has been accepted into the Preferred Provider Program of the Alliance for Tribal Clean Energy, an Indigenous led 501c3 nonprofit supporting Native American tribes in a just transition from extractive to renewable energy systems. Under the terms of the agreement, Paired Power and PHNXX are now approved partners to provide clean energy solutions to Native American and Aboriginal tribes.
“The global energy transition requires innovative solutions to help expand renewable energy use faster than the grid will allow it. Paired Power has pioneered delivering solar power and energy storage systems for EV charging, and we are expanding now into other microgrid applications with PHNXX,” said Tom McCalmont, CEO of Paired Power. “PairPHNXX allows for clean energy to be generated and deployed wherever and whenever it is needed, helping us reach those last frontiers of decarbonization within industries and in locations that have been held back by grid limitations and infrastructure costs. This is about making clean energy truly accessible for everyone, everywhere."
“PairPHNXX is bringing clean energy to the places the grid has left behind,” said Joel Tay, CEO of PHNXX. “By combining Paired Power’s energy management software with our modular microgrids, we’re delivering renewable power wherever it is needed. From tribal communities and farmers to remote industries and the military, this partnership is opening access to resilient clean energy where the grid can’t reach, and we’re just getting started.”
PairPHNXX is delivered in the footprint of a standard 20 ft. ISO shipping container, arriving onsite on the back of a flatbed trailer that can be placed, unfolded, and generating power within a single day. Depending on configuration, PairPHNXX can be delivered in solar capacities of 46.4 kW, 69.6 kW, or 92.8 kW, battery storage capacities of 42.4 to 636 kWh, and with output power from 30 to 60 kW per container at 208VAC or 480VAC, 3-phase or 120/240VAC single-phase.
Paired Power | pairedpower.com
PHNXX | https://www.phnxx.io/
Intelligent power management company Eaton announced the successful completion of a $100 million expansion project at its Nacogdoches, Texas manufacturing facility. The Eaton investment more than doubles its U.S. production capacity of voltage regulators and three-phase transformers, meeting growing global demand for the company’s solutions accelerating grid modernization.
To mark the milestone, Eaton welcomed representatives from Oncor, Texas’ largest energy delivery company, at its Nacogdoches facility. Oncor will receive the first shipment of voltage regulators from the new production lines.
“Having worked with Oncor for decades as both a valued customer and trusted collaborator, our organization is extremely grateful for their support,” said Guillaume Laur, Eaton senior vice president – Power Delivery and Regulation. “It is an honor to see our grid modernization solutions immediately being put to work in our community – and soon around the world – to help advance energy resilience, reliability and security.”
The project, launched in 2023, added 200,000-square-feet to Eaton’s Nacogdoches facility. The expanded manufacturing capacity strengthens Eaton’s position as one of the world’s largest suppliers of voltage regulators and capacitors, significantly boosting its U.S.-based manufacturing capabilities to serve both domestic and global customers.
Since 2023, Eaton has invested more than $1 billion in its North American manufacturing to advance electrification, the energy transition and digitalization across industries. Learn more about how Eaton is helping utilities design, build and operate a smart, modern electrical grid.
Eaton | www.eaton.com
Enurgen, developer of the solar industry’s most accurate energy yield performance model, announced it has secured $4.1M USD in new financing. The round was co-led by Business Development Bank of Canada (BDC), Brightspark, and Diagram, with participation from MaRS IAF.
The investment will accelerate the global expansion of Enurgen’s flagship software platform. Enurgen’s novel energy yield modelling software leverages advanced, physics-based models across the lifecycle of solar assets to deliver breakthrough rates of returns.
“This funding marks a major milestone for Enurgen,” said Kibby Pollak, CEO and Co-Founder of Enurgen. “In an era dominated by AI and LLMs, it’s crucial to recognize that critical systems like energy infrastructure continue to rely on physics-based models for accurate and deterministic outputs.”
Meeting Market Momentum
This investment meets a critical moment in the solar industry. Global adoption is surging, but the sector is grappling with intense growing pains. Key incentives are disappearing, designs are becoming more complex, and Power Purchase Agreement (PPA) prices are under constant pressure. This puts downward pressure on PPA prices and exacerbates the challenge of systemic underperformance, where projects often fail to meet their financial expectations. As a result, there is a surging demand for more accurate models that can maximize returns and ensure long-term cash flows are realized.
Enurgen’s novel, physics-based approach is well-positioned to solve the model-to-field accuracy problem. Backed by over a decade of research and development, the model delivers high-resolution, 3D solar irradiance modelling, enabling incident light calculations to scale from an individual solar cell to gigawatt-scale ($1B+) power plants.
“Solar PV is becoming the dominant (renewable) energy source, with panel costs plummeting faster than almost any technology in history—yet the software ecosystem remains stuck in the past,” said Éléonore Jarry, Partner at Brightspark Ventures. “Enurgen’s unique blend of deep academic R&D and strong commercial execution positions them perfectly to deliver the advanced 3D modelling infrastructure the industry desperately needs.”
Enurgen | www.enurgen.com
Wind Sep 15, 2025
Wind power has been a highly successful and reliable source of renewable energy for decades, as evidenced by the multitude of wind farms dotting landscapes and oceans across the globe. In recent years, with the increase of electrification of daily li....
As utility-scale hybrid solar and battery energy storage projects become standard across North America, operators are facing increasing complexity. These systems are no longer passive generators, but dynamic assets that must respond in real time to g....
It didn’t start with a robot. It started with a problem. Clean energy is one of the hottest commodities today, and the world is rushing to meet this increasing demand. However, the typical financial barrier isn’t a problem for the industry; it....
Code-Making Panel 4 of the National Electrical Code recently completed its final changes to the NEC2026 code for articles related to labeling within the solar industry including PV labeling requirements. After reviewing public input late in ....
Wind power has been a highly successful ....
As wind turbines keep growing taller and....
As energy needs grow more complex and grid instability becomes a regular concern, mobile microgrids are gaining attention as a flexible, lower-emission energy solution. Their emergence is timely. From wildfire-related outages in the West to hurricane....
A next generation of Virtual Power Plants has emerged in 2025, embodying trends which will require more efficient integration with utility grids. These trends span a wide range: VPPs that integrate EV charging and other new resources; building manage....
The confluence of several energy challenges has presented itself within the North American market. Rising electricity demands, grid reliability concerns, affordability and bottlenecks have reached an inflection point. Microgrids are emerging as a sol....
After months of debate in Congress, the One Big Beautiful Bill Act (OBBBA) was finally signed into law. With the goal of restructuring and simplifying federal incentive programs while reducing long-term costs, the OBBBA comes with several updates and....
Helium, once known primarily for its niche industrial uses, has emerged as a strategic political asset amid rising geopolitical tensions and trade uncertainties. Its critical role in next-generation technologies such as semiconductors, space explorat....
The need for reliable, high-quality electricity has never been greater now the grid is highly dependent on getting its supply from multiple sources. Power grid quality monitoring increasingly plays a significant role in ensuring that electricity arri....