Why the West Needs to Secure Heavy Rare Earths for the Future of Advanced Manufacturing

BaxEnergy, a Yokogawa company and global leader in renewable energy software solutions, announced it has entered into a strategic collaboration with Enlight Renewable Energy to deliver a centralized, multi-technology asset performance management (APM) platform.

The collaboration supports Enlight’s objective of optimizing performance, improving site visibility, and enabling data-driven decisions across its growing portfolio of solar, wind, and storage assets.

With 2.5 GW of operational solar and wind capacity and 1.9 GWh of storage Enlight required a scalable and flexible solution that could unify its diverse assets across the U.S., Europe and the Middle East. Following an extensive evaluation, BaxEnergy was selected for its vendor-independent platform and strong track record in cross-technology integration and performance analytics.

A unified platform for operational excellence

Enlight manages a large number of sites across multiple geographies, technologies, and contractors. BaxEnergy’s Asset Performance Management (APM) solution, Energy Studio Pro (ESPx), enables Enlight to standardize KPIs, automate data collection, and benchmark asset performance regardless of manufacturer or region. With advanced dashboards, customizable reports, and grid-behavior monitoring, Enlight’s technical operations team can now make faster, smarter decisions—while ensuring new assets are smoothly onboarded from day one.

Storage-driven future, powered by data

As Enlight’s global solar and wind portfolio expands, energy storage will play a growing role. The ability to balance intermittent energy generation with battery storage will be key as the portfolio grows. In this new phase, it will also be essential to smoothly and efficiently introduce new assets into the management system, while monitoring not only asset performance but also energy behavior—such as currents, voltages, and grid stability. The introduction and effective management of BESS will also allow the business to meet the contractual requirements of PPAs and also generate further revenue through smart energy shifting.

The collaboration is designed to grow with Enlight, providing full support for onboarding, API integrations, and continuous platform evolution.

“To manage a global portfolio, you need a single view of performance that cuts across geographies, OEMs, and site-specific conditions. BaxEnergy will allow us to track performance and behavior in real time—from day one of electricity generation—across all assets and technologies. This will give us the visibility we need not just for operations, but to optimize revenue and grid interactions.” said Shai Niezni, Senior Director of Technical Operations and Engineering at Enlight.

“We’re managing more storage every year, and that trend will only accelerate. From ancillary services to peak shifting, the value of data goes beyond operations—it impacts revenue and resilience.

“At BaxEnergy we are very excited to work with Enlight, one of the most ambitious and data-driven energy companies in the world,” said Roberto Tundo, Executive Vice President at BaxEnergy. “This collaboration reflects a shared belief in flexibility, execution, and long-term value. Together, I am confident that we will ensure Enlight’s operations are not only efficient—but ready to scale globally.”

BaxEnergy | www.baxenergy.com

Enlight Renewable Energy | www.enlightenergy.co.il

The Provence Grand Large wind farm features three Siemens Gamesa 8 MW turbines mounted on tension-leg platforms, developed by SBM Offshore and IFP Energies Nouvelles. With a total capacity of 25 MW, the wind farm is expected to generate enough power to supply approximately 45,000 homes annually. This will reduce CO₂ emissions by 20,000 tons each year, compared to traditional fossil power generation. This environmental benefit is equivalent to planting 10,000 hectares of forest—about the size of Marseille.

These figures underline the transformative potential of floating wind technology to drive decarbonization and provide clean energy solutions.

Freen OÜ, a Europe-based manufacturer of certified small wind turbines and hybrid systems, announces the release of its newest product: the Freen-H20, a horizontal-axis wind turbine built for medium-scale energy consumers. With certified quality, efficient logistics across Europe, and full compliance with IEC and ISO standards, Freen continues its mission to provide reliable and accessible renewable energy solutions. 

The Freen-H20 is the second horizontal-axis model in Freen’s product portfolio, following the Freen-H15. It is specifically designed to support farms, manufacturing plants, hybrid systems, and energy cooperatives that require higher power output and robust off-grid or grid-tied performance. 

“We introduced the Freen-H20 to cater to the needs of medium consumers.” said Andrey Khimenkov, CEO of Freen OÜ. “We want to empower businesses to harness the power of wind energy, reducing their carbon footprint and contributing to a greener future.” 

Built for Versatility and Performance 

The Freen-H20 combines industrial-grade design with flexible installation and outstanding performance, making it ideal for medium energy users across agricultural, industrial, and hybrid setups. 

Specifications: 

• Rated Power: 20 kW 
• Cut-in Wind Speed: 3.5 m/s 
• Cut-out Speed: None 
• Wind Class: IEC II 
• Rotor Diameter: 15 m 
• Swept Area: 177 m² 
• Tower Type: Lattice, 12–36 m height options 
• Generator: Asynchronous with planetary gearbox 
• Braking System: Aerodynamic stall, electromechanical failsafe rotor brake, centrifugal tip-brakes 
• Grid Connection: Direct connection with reactive power compensation 
• Standards: IEC 61400-2:2013 for small wind turbines 

Advanced Safety and Hybrid-Ready Engineering 

Engineered with a passive yaw system and precision aerodynamic controls, the Freen-H20 automatically aligns with wind direction using a tail-fin guided nacelle—removing the need for powered yaw motors and simplifying setup in remote areas. Its rotor features fiberglass blades with a centrifugal tip-brake system for overspeed protection, while an electromechanical failsafe brake ensures reliable emergency shutdowns. 

The turbine’s asynchronous generator, paired with a compact planetary gearbox, guarantees stable power transfer and long-term reliability across a wide range of wind conditions. A stall-control rotor design passively limits excess rotation in high winds, offering dependable safety without electronic intervention. 

With flexible tower options and hybrid compatibility, the Freen-H20 is ideal for diverse use cases—from powering irrigation and machinery on large farms, to supporting light industry, rural campuses, or energy cooperatives through standalone or hybrid solar-wind systems. Its modular design makes it suitable for both new installations and integration into existing infrastructure. 

Certified European Quality 

Manufactured in Estonia, the Freen-H20 meets rigorous European standards, including ISO 9001:2015, EN 1090-1, and ISO 3834-2 certifications. Every unit undergoes strict quality control to ensure long-term durability, energy efficiency, and environmental safety. 

Now Available for Inquiries 

The Freen-H20 is available now through Freen’s distribution network. Custom turnkey packages are offered, including installation planning, hybrid system configuration, and site-specific wind assessments. 

Freen OÜ | https://freen.com/

Adapture Renewables, Inc., a utility-scale solar and energy storage developer and owner-operator, announced the execution of two Environmental Attributes Purchase Agreements (EAPAs) with Meta. These agreements support Meta’s sustainability goals and reinforce the ongoing collaboration between the two companies to advance clean energy deployment at scale. The agreements total 360 MW across two solar projects located in ERCOT that are expected to reach commercial operation in 2027. These projects represent a significant milestone for both Adapture Renewables’ growing development pipeline as well as Meta’s renewable energy portfolio. As demand for electricity surges, driven in part by the rapid growth of data centers and AI technologies, utility-scale solar projects like these are increasingly critical to meeting grid-wide energy needs.

These new EAPAs build on the three previously executed agreements between Adapture Renewables and Meta in 2023, bringing the total number of agreements between the companies to five, and total capacity to nearly 700MW across three states.

“This expanded partnership reflects the trust and alignment we’ve built with Meta over time,” said Jesse Tippett, VP of Origination at Adapture Renewables. “By structuring long-term agreements that balance risk and value for both parties, we’re helping to scale meaningful projects while enabling our partners to meet their clean energy goals.”

“Meta is always looking for opportunities to bring new renewable energy to the grid, and partnerships like this help make that possible,” said Amanda Yang, Co-Head of Clean and Renewable Energy at Meta. “We’re excited to expand our relationship with Adapture Renewables through these new agreements and continue supporting projects that move the energy transition forward.”

Adapture Renewables | https://adapturerenewables.com

Nextracker (Nasdaq: NXT), a global leader in advanced solar energy solutions, announced that its NX Horizon solar trackers will power one of Europe’s largest solar projects, the 550 MW “Oricheio PPC Ptolemaida” solar PV park in Western Macedonia. Owned by Greek PPC Renewables (PPCR), a wholly owned subsidiary of utility PPC Group, the project was constructed by engineering procurement and construction (EPC) company Terna SA by repurposing the land of a former coal mine with high-performance solar energy infrastructure to generate clean, lower-cost electricity. Now in its final stage of construction, Oricheio PPC Ptolemaida is the largest single solar power project in Greece and is estimated to provide nearly 1.8% of the country’s electricity per year when fully operational.

Large-scale solar projects play a key role in advancing Europe’s drive to energy independence and net-zero carbon goals by 2050. This project represents a significant milestone, adding clean power generation capacity to the grid and bringing new economic development benefits to the region. According to Greece’s revised National Energy and Climate Plan (NECP), the country aims to reach a target of 82% renewable energy in its electricity generation by 2030, a significant increase from the previous target of 66% set in 2019.

“The 550 MW Oricheio PPC Ptolemaida solar project is an important step to increase energy independence in Europe and derisk capacity shortages for the region,” said Howard Wenger, president, Nextracker. “We are honored to partner with leaders like Terna SA and Greece’s utility PPC who are operating at the highest European standards for executing large-scale utility solar projects. This landmark project reinforces our culture of serving our customers with world class technology, backed by our talented European team and a robust supply chain ecosystem.”

Wood Mackenzie reported that Nextracker is now the European market share leader and global market leader with over 130 GW solar trackers shipped worldwide. With a growing team of experts serving customers throughout the continent, Nextracker has expanded its European operations. Building on the company's extensive global supply chain, the company strengthened strategic local manufacturing partnerships in Europe to ensure on-time delivery for large-scale utility and distributed-generation (DG) projects.

Nextracker | https://www.nextracker.com/

Turlock Unified School District (TUSD) celebrated the delivery of nine electric buses and charging infrastructure with a ribbon-cutting ceremony at their transportation center. They were joined by project partners Schneider Electric, The Mobility House, Turlock Irrigation District, A-Z Bus Sales, Valley Air District and NV5.  The electric Blue Bird buses will replace diesel buses in the TUSD fleet, reducing air pollution and contributing to the district’s goal to transition to an all-electric fleet by 2035. The buses will be charged by a combination of AC and DC chargers, with power from the solar canopies shading the parking lot. The charging logic of the charge management system, provided by The Mobility House, maximizes the use of on-site solar energy and minimizes the cost of energy purchased from the electric utility.

“I am so proud to congratulate Turlock Unified School District for this important step towards zero emissions transportation, powered by zero emissions energy,” said Greg Hintler, CEO of The Mobility House North America. “Solar energy and electric buses are complementary technologies that provide a vision for the future of sustainable school transportation.”

Schneider Electric and The Mobility House have jointly deployed several electric school bus charging infrastructure projects in California to date, including previous installations at Stockton Unified School District and Modesto City Schools, with further deployments planned for later this summer.

“California school districts like Turlock are leading the way towards our electric future,” said Elliott Feldman, Program Manager at Schneider Electric. “Their ambition and drive to implement sustainable solutions is a testament to the role they play in their community.”

The Mobility House | https://www.mobilityhouse.com/usa_en/

Schneider Electric | https://www.se.com/us/en/

Oklo (NYSE: OKLO), an advanced nuclear technology company, announced strategic collaborations with Hexium, a pioneering isotope enrichment company, and TerraPower, a nuclear innovation company, with the goal of ultimately accelerating domestic production of High-Assay Low-Enriched Uranium (HALEU) at industry leading cost targets. As part of this effort, the three companies are collaborating with Lawrence Livermore National Laboratory (LLNL) to evaluate the potential of Atomic Vapor Laser Isotope Separation (AVLIS), a robust legacy technology that offers one of the most promising paths to commercial-scale enrichment of reactor-grade uranium. The strategic partnership will assess how modern technologies, systems, and processes can unlock AVLIS’s potential as an industrial scale uranium enrichment technology to fuel the nuclear renaissance. Independent benchmarking will be provided by MPR Associates, recognized experts in nuclear engineering and enrichment systems, to compare performance against leading enrichment technologies. This collaboration addresses a critically urgent bottleneck in deploying advanced nuclear reactors in the United States.

Atomic Vapor Laser Isotope Separation in the lab (Image Lawrence Livermore National Laboratory)

With more than a dozen advanced reactor designs progressing toward deployment, the lack of a domestic commercial HALEU supply is widely seen as the most pressing obstacle to scaling the next generation of nuclear energy in the United States. HALEU enables more compact and efficient reactor designs and the US Department of Energy (DOE) projects a need for up to 40 metric tons annually by the early 2030s. Presently, there is no sustained domestic production capable of meeting this demand. Reliance on foreign sources poses U.S. energy security risks, as only ~700kgs have been produced domestically since 2023. This collaboration provides a strategic alternative: a rapidly scalable, proven, and clean domestic enrichment pathway that aligns with the DOE’s mission to quadruple nuclear power in the United States by 2050. The strategic project aligns with the DOE’s broader efforts to reindustrialize the domestic nuclear fuel supply chain, reduce geopolitical risk, and strengthen long-term energy resilience.

This initiative brings together a diverse set of capabilities. Hexium contributes next-generation laser enrichment technology and deep technical expertise in isotope separation. Oklo contributes a deployment-focused reactor pipeline along with leadership in the fuel cycle and engineered real-world systems. TerraPower brings decades of experience in nuclear innovation and industrial-scale deployment, helping position AVLIS for long-term integration into the national fuel ecosystem. Together, the collaborating parties are jointly funding and guiding research and development to deliver a validated conceptual design and technoeconomic assessment of AVLIS-based HALEU production. This coordinated effort is critical to moving breakthrough technologies like AVLIS from the lab into commercial deployment with a focus on domestic production, regulatory readiness, and the technological advancement necessary to make advanced nuclear power a part of America’s energy future.

“This collaboration goes beyond just fuel and is about building the next generation of American nuclear infrastructure,” said Charlie Jarrott, co-founder and CEO of Hexium. “By aligning breakthrough enrichment technology with real-world reactor demand from Oklo and TerraPower and the expertise of our national laboratories, we’re advancing a solution that’s compact, scalable, and energy-efficient. A validated AVLIS design for HALEU over the next year won’t just accelerate deployment of advanced reactors but will strengthen U.S. energy security and reestablish leadership in nuclear fuel innovation.”

“Building a secure domestic fuel supply is a national priority. This effort supports the U.S. goal of expanding HALEU production through innovative technologies and private-sector partnerships,” said Jacob DeWitte, co-founder and CEO of Oklo. “This is about building U.S. leadership in fuel technology, and laser enrichment has the potential to be a flexible, scalable option for HALEU, and a strategic asset for the U.S. fuel supply chain.”

“TerraPower has been committed to advancing the domestic HALEU supply chain through investments on multiple fronts, and we are excited about Hexium’s efforts to bring enrichment technology research from our national laboratories into the commercial space and glad to be a collaborator on this study,” said Jeff Miller, TerraPower’s Vice President of Business Development.

Unlike traditional centrifuge-based approaches, AVLIS uses finely tuned lasers to selectively ionize uranium isotopes, enabling enrichment with greater precision and energy efficiency. Additionally, its compact design requires no chemical conversion to uranium hexafluoride, thus simplifying the system level enrichment process and reducing both infrastructure complexity, process cost, and chemical handling requirements. When ready for industrial scaling, this will allow faster deployments and support scalable, parallel production. While AVLIS has been demonstrated at large-scale pilot stages in the past, this initiative marks a renewed effort to commercialize the technology and deploy it as a scalable U.S.-based enrichment pathway that supports current policy, energy security and advanced reactor goals.

The project aligns with recent DOE initiatives and federal executive actions focused on accelerating deployment of advanced reactors and revitalizing America’s nuclear fuel infrastructure. As the U.S. advances toward a cleaner and more secure energy future, a reliable supply of advanced nuclear fuel will be essential to unlocking innovation, attracting investment, and ensuring long-term energy resilience. This strategic collaboration represents a unified effort to address one of the most critical infrastructure challenges in the energy transition by advancing a commercially scalable HALEU enrichment pathway. This initiative lays the foundation for renewed American leadership in energy, national security, and industrial innovation while directly supporting efforts to strengthen energy security, reduce reliance on foreign sources, and rebuild a resilient domestic nuclear supply chain.

Oklo I https://oklo.com/overview/default.aspx

Hexium | www.hexium.us

TerraPower | terrapower.com