International wind turbine manufacturer opens corporate office in Houston

new to hou

Vestas, a Danish wind turbine company, has expanded into Houston. Photo via Getty Images.

Wind turbine manufacturer Vestas has set up a corporate office in Houston. The Danish company employs more than 500 people in Texas and over 5,200 people in North America.

“Houston is the ideal location to expand our office operations in the U.S. due to its central proximity to many of our wind projects, customers, and suppliers,” Laura Beane, president of Portland, Oregon-based Vestas North America, said in a news release.

One of those customers is Houston-based renewable energy company Engie North America. In 2023, Vestas announced a 270-megawatt order from Engie for 60 wind turbines. The turbines were expected to start producing energy in early 2025.

“Producing homegrown energy, powered by the hard work of Americans nationwide is critically important and we look forward to increasing our presence in Texas and continuing to provide generational jobs to Americans across the state,” Beane added.

In a statement, Houston Mayor John Whitmire welcomed Vestas to the city.

“The company's decision to establish a new corporate office underscores our city’s commitment to sustainable energy and promises to provide quality jobs and economic growth,” Whitmire said. “We are excited to support Vestas’ mission to drive innovation in renewable energy. We look forward to a prosperous partnership that benefits our community.”

Texas is the No. 1 state for wind energy capacity and energy production, representing 28% of all U.S. wind-generated electricity in 2024, according to Vestas. The company says it has installed over 3,500 wind turbines in Texas, helping supply power to nearly 7 million homes.

Steve Kean, president and CEO of the Greater Houston Partnership, says the Vestas announcement represents “a significant and exciting development” for the Houston area.

“This decision underscores Houston’s position as a premier energy hub and desirable location for businesses, bolstered by our talent, world-class infrastructure, and a pro-business environment,” Kean said in a release.

Aside from the Oregon and Houston locations, Vestas maintains offices in Boston and Portland, Maine, and operates factories in the Colorado cities of Brighton and Windsor. Vestas services 315 wind farms in 31 states.

Vestas predicts its 2025 revenue will range from about $19 billion to $21 billion, up from about $18 billion in 2024.

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Wind and solar supplied over a third of ERCOT power, report shows

power report

Since 2023, wind and solar power have been the fastest-growing sources of electricity for the Electric Reliability Council of Texas (ERCOT) and increasingly are meeting stepped-up demand, according to a new report from the U.S. Energy Information Administration (EIA).

The report says utility-scale solar generated 50 percent more electricity for ERCOT in the first nine months this year compared with the same period in 2024. Meanwhile, electricity generated by wind power rose 4 percent in the first nine months of this year versus the same period in 2024.

Together, wind and solar supplied 36 percent of ERCOT’s electricity in the first nine months of 2025.

Heavier reliance on wind and solar power comes amid greater demand for ERCOT electricity. In the first nine months of 2025, ERCOT recorded the fastest growth in electricity demand (5 percent) among U.S. power grids compared with the same period last year, according to the report.

“ERCOT’s electricity demand is forecast to grow faster than that of any other grid operator in the United States through at least 2026,” the report says.

EIA forecasts demand for ERCOT electricity will climb 14 percent in the first nine months of 2026 compared with the same period this year. This anticipated jump coincides with a number of large data centers and cryptocurrency mining facilities coming online next year.

The ERCOT grid covers about 90 percent of Texas’ electrical load.

Micro-nuclear reactor to launch next year at Texas A&M innovation campus

nuclear pilot

The Texas A&M University System and Last Energy plan to launch a micro-nuclear reactor pilot project next summer at the Texas A&M-RELLIS technology and innovation campus in Bryan.

Washington, D.C.-based Last Energy will build a 5-megawatt reactor that’s a scaled-down version of its 20-megawatt reactor. The micro-reactor initially will aim to demonstrate safety and stability, and test the ability to generate electricity for the grid.

The U.S. Department of Energy (DOE) fast-tracked the project under its New Reactor Pilot Program. The project will mark Last Energy’s first installation of a nuclear reactor in the U.S.

Private funds are paying for the project, which Robert Albritton, chairman of the Texas A&M system’s board of regents, said is “an example of what’s possible when we try to meet the needs of the state and tap into the latest technologies.”

Glenn Hegar, chancellor of the Texas A&M system, said the 5-megawatt reactor is the kind of project the system had in mind when it built the 2,400-acre Texas A&M-RELLIS campus.

The project is “bold, it’s forward-looking, and it brings together private innovation and public research to solve today’s energy challenges,” Hegar said.

As it gears up to build the reactor, Last Energy has secured a land lease at Texas A&M-RELLIS, obtained uranium fuel, and signed an agreement with DOE. Founder and CEO Bret Kugelmass said the project will usher in “the next atomic era.”

In February, John Sharp, chancellor of Texas A&M’s flagship campus, said the university had offered land at Texas A&M-RELLIS to four companies to build small modular nuclear reactors. Power generated by reactors at Texas A&M-RELLIS may someday be supplied to the Electric Reliability Council of Texas (ERCOT) grid.

Also in February, Last Energy announced plans to develop 30 micro-nuclear reactors at a 200-acre site about halfway between Lubbock and Fort Worth.

Rice University partners with Australian co. to boost mineral processing, battery innovation

critical mineral partnership

Rice University and Australian mineral exploration company Locksley Resources have joined together in a research partnership to accelerate the development of antimony processing in the U.S. Antimony is a critical mineral used for defense systems, electronics and battery storage.

Rice and Locksley will work together to develop scalable methods for extracting and utilizing antimony. Currently, the U.S. relies on imports for nearly all refined antimony, according to Rice.

Locksley will fund the research and provide antimony-rich feedstocks and rare earth elements from a project in the Mojave Desert. The research will explore less invasive hydrometallurgical techniques for antimony extraction and explore antimony-based materials for use in batteries and other energy storage applications.

“This strategic collaboration with Rice marks a pivotal step in executing Locksley’s U.S. strategy,” Nathan Lude, chairman of Locksley Resources, said in a news release. “By fast-tracking our research program, we are helping rebuild downstream capacity through materials innovation that the country urgently requires.”

Pulickel Ajayan, the Benjamin M. and Mary Greenwood Anderson Professor of Materials Science and Nanoengineering at Rice, is the principal investigator of the project.

“Developing scalable, domestic pathways for antimony processing is not only a scientific and engineering challenge but also a national strategic priority,” Ajayan said in the news release. “By combining Rice’s expertise in advanced materials with Locksley’s resources, we can address a critical supply chain gap and build collaborations that strengthen U.S. energy resilience.”

The Rice Advanced Materials Institute (RAMI) will play a major role in supporting the advancement of technology and energy-storage applications.

“This partnership aligns with our mission to lead in materials innovations that address national priorities,” Lane Martin, director of RAMI, said in a news release. “By working with Locksley, we are helping to build a robust domestic supply chain for critical materials and support the advancement of next-generation energy technologies.”

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