Texas hydrogen research hub opens to support statewide, DOE-backed initiative

hi to hydrogen

A Texas school has cut the ribbon on a new hydrogen-focused research facility that will play a role in a statewide, Department of Energy-funded energy transition initiative.

The Center for Electromechanics at The University of Texas, Frontier Energy, Inc., and GTI Energy celebrated the grand opening of a hydrogen research and demonstration facility in Austin as part of the “Demonstration and Framework for H2@Scale in Texas and Beyond” project, which is supported by the DOE's Hydrogen and Fuel Cell Technologies Office.

The hydrogen proto-hub is first-of-its-kind and part of Texas-wide initiative for a cleaner hydrogen economy and will feature contributions from organizations throughout the state. The facility will generate zero-carbon hydrogen by using water electrolysis powered by solar and wind energy, and steam methane reformation of renewable natural gas from a Texas landfill.

The hydrogen will be used to power a stationary fuel cell for power for the Texas Advanced Computing Center, and it will also supply zero-emission fuel to cell drones and a fleet of Toyota Mirai fuel cell electric vehicles. This method will mark the first time that multiple renewable hydrogen supplies and uses have been networked at one location to show an economical hydrogen ecosystem that is scalable.

“The H2@Scale in Texas project builds on nearly two decades of UT leadership in hydrogen research and development” Michael Lewis, Research Scientist, UT Austin Center for Electromechanics, say in a news release. “With this facility, we aim to provide the educated workforce and the engineering data needed for success. Beyond the current project, the hydrogen research facility is well-positioned for growth and impact in the emerging clean hydrogen industry.”

Over 20 sponsors and industry stakeholders are involved and include Houston-based partners in Center for Houston’s Future and Rice University Baker Institute for Public Policy. Industry heavyweights like Chevron, Toyota, ConocoPhillips, and the Texas Commission on Environmental Quality are also part of the effort.

Texas hydrogen infrastructure and wind and solar resources position the state for clean hydrogen production, as evident in the recently released study, “A Framework for Hydrogen in Texas.” The study was part of a larger effort that started in 2020 with the H2@Scale project, which aims to develop clearer paths to renewable hydrogen as a “clean and cost-effective fuel” according to a news release. The facility will serve as an academic research center, and a model for future large-scale hydrogen deployments.

Participants in the DOE-funded HyVelocity Gulf Coast Hydrogen Hub will aim to gain insights from the H2@Scale project at UT Austin. The project will build towards a development of a comprehensive hydrogen network across the region. HyVelocity is a hub that includes AES Corporation, Air Liquide, Chevron, ExxonMobil, Mitsubishi Power Americas, Orsted, and Sempra Infrastructure. The GTI Energy administered HyVelocity involves The University of Texas at Austin, the Center for Houston’s Future, and Houston Advanced Research Center.

“H2@Scale isn't just about producing low-carbon energy, it's about creating clean energy growth opportunities for communities throughout Texas and the nation,” Adam Walburger, president of Frontier Energy, says in a news release. “By harnessing renewable energy resources to create zero-carbon hydrogen, we can power homes, businesses, transportation, and agriculture – all while creating jobs and reducing emissions.”

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Hazardous waste company with Houston presence to make $3B acquisition

big deal

Veolia, a Boston-based company with major operations in Texas, is purchasing hazardous-waste company Clean Earth from Enviri as part of a $3 billion deal.

Veolia is a private water operator, technology provider and hazardous waste and pollution treatment company that operates a large hazardous waste treatment and incineration facility in Port Arthur. Hazardous waste treatment is a growing sector as the clean energy, semiconductor manufacturing, healthcare and pharmaceutical industries generate high levels of waste that need to be handled safely.

Acquiring Clean Earth’s 82 facilities, which include 19 EPA-permitted sites, will expand Veolia’s reach into 10 new states and will position the company as the second-largest hazardous waste operator in the U.S., according to a news release. The deal is Veolia’s sixth and largest North American acquisition of 2025.

“(The acquisition) allows us to unlock the full value potential of our U.S. hazardous waste activities and to double our size on this critical, fast-growing sector, creating a No. 2 player,” Estelle Brachlianoff, CEO of Veolia, said in a news release. “We reinforce our global capacities in hazardous waste and further increase our international footprint.”

Veolia’s Port Arthur facility specializes in servicing generators with large-volume waste treatment requirements.

The transaction is expected to close mid-2026. Veolia hopes the increased exposure into industries such as retail and healthcare will help to offer a full range of environmental services across the U.S.

“This continued transformation of our portfolio enhances the growth profile and strength of our group, uniquely positioned to tackle the sustained demand for environmental security,” Brachlianoff added in the release.

Reliant partners to expand Texas virtual power plant and home battery use

energy incentives

Houston’s Reliant and San Francisco tech company GoodLeap are teaming up to bolster residential battery participation and accelerate the growth of NRG’s virtual power plant (VPP) network in Texas.

Through the new partnership, eligible Reliant customers can either lease a battery or enter into a power purchase agreement with GoodLeap through its GoodGrid program, which incentivises users by offering monthly performance-based rewards for contributing stored power to the grid. Through the Reliant GoodLeap VPP Battery Program, customers will start earning $40 per month in rewards from GoodLeap.

“These incentives highlight our commitment to making homeowner battery adoption more accessible, effectively offsetting the cost of the battery and making the upgrade a no-cost addition to their homes,” Dan Lotano, COO at GoodLeap, said in a news release.“We’re proud to work with NRG to unlock the next frontier in distributed energy in Texas. This marks an important step in GoodLeap reaching our nationwide goal of 1.5 GW of managed distributed energy over the next five years.”

Other features of the program include power outage plans, with battery reserves set aside for outage events. The plan also intelligently manages the battery without homeowner interaction.

The partnership comes as Reliant’s parent company, NRG, continues to scale its VPP program. Last year, NRG partnered with California-based Renew Home to distribute hundreds of thousands of VPP-enabled smart thermostats by 2035 in an effort to help households manage and lower their energy costs.

“We started building our VPP with smart thermostats across Texas, and now this partnership with GoodLeap brings home battery storage into our platform,” Mark Parsons, senior vice president and head of Texas energy at NRG, said in a the release. “Each time we add new devices, we’re enabling Texans to unlock new value from their homes, earn rewards and help build a more resilient grid for everyone. This is about giving customers the opportunity to actively participate in the energy transition and receive tangible benefits for themselves and their communities.

How Corrolytics is tackling industrial corrosion and cutting emissions

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Corrosion is not something most people think about, but for Houston's industrial backbone pipelines, refineries, chemical plants, and water infrastructure, it is a silent and costly threat. Replacing damaged steel and overusing chemicals adds hundreds of millions of tons of carbon emissions every year. Despite the scale of the problem, corrosion detection has barely changed in decades.

In a recent episode of the Energy Tech Startups Podcast, Anwar Sadek, founder and CEO of Corrolytics, explained why the traditional approach is not working and how his team is delivering real-time visibility into one of the most overlooked challenges in the energy transition.

From Lab Insight to Industrial Breakthrough

Anwar began as a researcher studying how metals degrade and how microbes accelerate corrosion. He quickly noticed a major gap. Companies could detect the presence of microorganisms, but they could not tell whether those microbes were actually causing corrosion or how quickly the damage was happening. Most tests required shipping samples to a lab and waiting months for results, long after conditions inside the asset had changed.

That gap inspired Corrolytics' breakthrough. The company developed a portable, real-time electrochemical test that measures microbial corrosion activity directly from fluid samples. No invasive probes. No complex lab work. Just the immediate data operators can act on.

“It is like switching from film to digital photography,” Anwar says. “What used to take months now takes a couple of hours.”

Why Corrosion Matters in Houston's Energy Transition

Houston's energy transition is a blend of innovation and practicality. While the world builds new low-carbon systems, the region still depends on existing industrial infrastructure. Keeping those assets safe, efficient, and emission-conscious is essential.

This is where Corrolytics fits in. Every leak prevented, every pipeline protected, and every unnecessary gallon of biocide avoided reduces emissions and improves operational safety. The company is already seeing interest across oil and gas, petrochemicals, water and wastewater treatment, HVAC, industrial cooling, and biofuels. If fluids move through metal, microbial corrosion can occur, and Corrolytics can detect it.

Because microbes evolve quickly, slow testing methods simply cannot keep up. “By the time a company gets lab results, the environment has changed completely,” Anwar explains. “You cannot manage what you cannot measure.”

A Scientist Steps Into the CEO Role

Anwar did not plan to become a CEO. But through the National Science Foundation's ICorps program, he interviewed more than 300 industry stakeholders. Over 95 percent cited microbial corrosion as a major issue with no effective tool to address it. That validation pushed him to transform his research into a product.

Since then, Corrolytics has moved from prototype to real-world pilots in Brazil and Houston, with early partners already using the technology and some preparing to invest. Along the way, Anwar learned to lead teams, speak the language of industry, and guide the company through challenges. “When things go wrong, and they do, it is the CEO's job to steady the team,” he says.

Why Houston

Relocating to Houston accelerated everything. Customers, partners, advisors, and manufacturing talent are all here. For industrial and energy tech startups, Houston offers an ecosystem built for scale.

What's Next

Corrolytics is preparing for broader pilots, commercial partnerships, and team growth as it continues its fundraising efforts. For anyone focused on asset integrity, emissions reduction, or industrial innovation, this is a company to watch.

Listen to the full conversation with Anwar Sadek on the Energy Tech Startups Podcast to learn more:

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Energy Tech Startups Podcast is hosted by Jason Ethier and Nada Ahmed. It delves into Houston's pivotal role in the energy transition, spotlighting entrepreneurs and industry leaders shaping a low-carbon future.

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