Houston company selects site for net-zero hydrogen production facility, low-carbon microgrid

major move

This major project will include net-zero hydrogen production to be used onsite to fuel a microgrid, greenhouses, and more. Image courtesy of Fidelis New Energy

A Houston-based energy transition infrastructure firm has announced where it's planning to build a multiple-phase project that will produce carbon-neutral hydrogen and run a low-carbon microgrid.

Fidelis New Energy selected Mason County, West Virginia, as the site for its carbon neutral hydrogen production facility and low carbon microgrid —The Mountaineer GigaSystem and the Monarch Cloud Campus for data centers powered by net-zero hydrogen.

The facility will be using the company's the proprietary tech, called the FidelisH2, that produces hydrogen using "a combination of natural gas, renewable energy, and carbon capture, utilization, and sequestration," according to a news release.

The four-phase project is estimated to cost $2 billion per phase and will produce over 500 metric tons per day of net-zero carbon hydrogen. The first phase is expected to be completed in 2028.

"I am beyond excited that West Virginia will be the home of the Mountaineer GigaSystem and Monarch Cloud Campus," West Virginia Governor Jim Justice says in a news release. "West Virginia has a long history as an energy powerhouse for our nation, thanks to our hardworking people who know how to get the job done. And now, we're in a great position to make the most of a new fuel – hydrogen – through this incredible project in Mason County.

"There's simply no doubt that Fidelis is going to help shape the future of West Virginia in a major, major way by assisting in the commercial lift-off of some truly exciting new industries," he continues.

The project includes an incentive package from the West Virginia Department of Economic Development.

"The project's four-phase construction plan will not only provide substantial employment opportunities for the local workforce, with 800 full-time jobs and 4,200 construction workers, but it will also have a major positive impact on the region's economy," John Musgrave, the executive director of the Mason County Development Authority, says in the release. "The influx of workers and the establishment of the facility will bring additional business, industry, and new technology to Mason County, the state, and the surrounding region."

In addition to the hydrogen-producing FidelisH2 tool, Fidelis's suite of technologies includes H2PowerCool, which powers and cools data centers, and CO2PowerGrow, which is used for greenhouses to decarbonize and lower the cost of food production.

The new collaborative project is a rising amid the region's bid in the U.S. Department of Energy’s Office of Clean Energy Demonstrations for the regional clean hydrogen hub Funding Opportunity Announcement. The bid, called the Appalachian Regional Clean Hydrogen Hub, or ARCH2, was submitted earlier this year by a multi-state effort.

"Our proprietary net-zero solutions using only proven technologies are attracting significant commercial interest from hydrogen users, data center operators, and greenhouse owners," Bengt Jarlsjo, co-founder, president, and COO at Fidelis, says in the release. "This helps the ARCH2 hub to achieve scale across the hydrogen lifecycle from production through consumption."

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Houston company raises $100M Series D to scale industrial decarbonization tech

fresh funding

Houston-based Utility Global has raised $100 million in an ongoing Series D round to globally deploy its decarbonization technology at an industrial scale.

The round was led by Ara Partners and APG Asset, according to a news release. Utility plans to use the funding to expand manufacturing, grow its teams and support its commercial developments and partnerships.

“This financing marks a critical step in Utility’s transition from a proven technology to full-scale global commercial execution,” Parker Meeks, CEO and president of Utility Global, said in the release. “Industrial customers are no longer looking for pilots or promises; they need deployable solutions that work within existing assets and deliver true economic industrial decarbonization today that is operationally reliable and highly scalable. Utility’s technology produces both economic clean hydrogen and capture-ready CO2 streams, and this capital enables us to scale and deploy that impact globally with speed, discipline, and rigor.”

Utility Global's H2Gen technology produces low-cost, clean hydrogen from water and industrial off-gases without requiring electricity. It's designed to integrate into existing industrial infrastructure in hard-to-abate assets in the steel, refining, petrochemical, chemical, low-carbon fuels, and upstream oil and gas sectors.

“Utility is tackling one of the most difficult challenges in the energy transition: decarbonizing hard‑to‑abate industrial sectors,” Cory Steffek, partner at Ara Partners and Utility Global board chair, said in the release. “What sets Utility apart is its ability to compete head‑to‑head with conventional fossil‑based solutions on cost and reliability, even as it materially reduces emissions. With this new funding, Utility is well-positioned for its next chapter of commercial growth while maintaining the technical excellence and capital discipline that have defined its development to date.”

Utility Global reached several major milestones in 2025. After closing a $53 million Series C, the company agreed to develop at least one decarbonization facility at an ArcelorMittal steel plant in Brazil. It also signed a strategic partnership with California-based Kyocera International Inc. to scale global manufacturing of its H2Gen electrochemical cells.

The company also partnered with Maas Energy Works, another California company, to develop a commercial project integrating Maas’ dairy biogas systems with H2Gen to produce economical, clean hydrogen.

"These projects were never intended to stand alone. They anchor a deep and growing pipeline of commercial projects now in development globally across steel, refining, chemicals, biogas and other hard-to-abate sectors worldwide, Meeks shared in a 2025 year-in-review note. He added that 2026 would be a year of "focused acceleration to scale."

Houston energy pioneer elected to National Academy of Sciences leadership

top honor

Naomi Halas, a Rice University professor and co-founder of Syzygy Plasmonics, was elected to the Council of the National Academy of Sciences this month.

The council sets priorities for the nonprofit organization, which advises the federal government on scientific and technical matters. Halas will serve a three-year term on the council, beginning July 1.

“The council’s work is focused on the academy’s national leadership and governance,” Halas said in a news release. “It plays an important role in helping set initiatives and priorities for the scientific community, and in supporting the conditions that allow science to move forward in meaningful ways.”

Halas is best known for her pioneering work in nanophotonics and plasmonics. She helped develop nanoshells, or metal-coated nanoparticles that capture light energy, which have led to innovations in renewable energy, cancer therapy and water purification.

Halas co-founded Syzygy Plasmonics with frequent collaborator and fellow Rice professor Peter Nordlander. The company is developing low-cost, light-driven, all-electric chemical reactors for the sustainable production of hydrogen fuel. It was named to Fast Company's energy innovation list last year.

Syzygy Plasmonics is developing its first commercial-scale biogas-to-sustainable aviation fuel project in Uruguay, known as NovaSAF-1. It secured a six-year offtake agreement for the entire production from the project with Singapore-based commodity company Trafigura this month.

Halas was first elected to become a member of the NAS in 2013, and was shortly after named to the National Academy of Engineering in 2014—making her one of the few scientists to hold both distinctions. She received the Benjamin Franklin Medal in Chemistry last year. Many scientists who have received the award have gone on to win Nobel prizes.

She is also the co-founder of Nanospectra Biosciences and a member of the National Academy of Inventors, the American Academy of Arts and Sciences, and the Royal Danish Academy of Science and Letters. She holds more than 25 patents, according to Rice.

Houston startup launches groundbreaking mineral hydrogen pilot

pilot project

Houston climatech company Vema Hydrogen recently completed drilling its first two pilot wells in Quebec for its Engineered Mineral Hydrogen (EMH) pilot. The company says the project is the first EMH pilot of its kind.

Vema’s EMH technology produces low-cost, high-purity hydrogen from subsurface rock formations. It has the capacity to support e-fuel and clean mobility industries and the shipping and air transport markets. The pilot project is the first field deployment of the company’s technology.

“This pilot will provide the critical data needed to validate Engineered Mineral Hydrogen at commercial scale and demonstrate that Quebec can lead the world in this emerging clean energy category,” Pierre Levin, CEO of Vema Hydrogen, said in a news release.

Levin added that the sample collected thus far in the pilot is “exactly what we expected, and is very promising for hydrogen yields.”

Through the pilot, Vema will collect core samples and begin subsurface analysis to evaluate fluid movement and monitor hydrogen production from the wells. The data collected from the pilot will shape Vema's plans for commercialization and provide documentation for proof of concept in the field, according to the news release.

“Vema Hydrogen perfectly embodies the spirit of the grey to green movement: transforming mining liabilities into drivers of innovation and ecological transition,” Ludovic Beauregard, circular economy commissioner at the Thetford Region Economic Development Corporation, added in the release.

“This project demonstrates that it is possible to reconcile the revitalization of mining regions, clean energy and sustainable economic development for these areas.”

In addition to its pilot in Canada, Vema also recently signed a 10-year hydrogen purchase and sale agreement with San Francisco-based Verne Power to supply clean hydrogen for data centers across California. The company was selected as a Qualified Supplier by The First Public Hydrogen Authority, which will allow it to supply clean hydrogen at scale to California’s municipalities, transit agencies and businesses through the FPH2 network.

Vema aims to produce Engineered Mineral Hydrogen for less than $1 per kilogram. The company, founded in 2024, is working toward a gigawatt-scale hydrogen supply in North America.

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