The University of Houston and Heriot-Watt University in Scotland have secured funding for six energy projects. Photo via Getty Images

The University of Houston and Scotland’s Heriot-Watt University have been awarded seed grants to six energy projects, which is part of an innovative transatlantic research collaboration.

Researchers from both universities will take on projects that will concentrate on innovations that range from advanced hydrogen sensing technology to converting waste into sustainable products.

This will mark the first round of awards under the “UH2HWU” seed grant program. The program was created following the signing of a memorandum of understanding between both institutions in 2024. The universities will “seek to drive global progress in energy research, education, and innovation, with a particular focus on hydrogen as a key element in the shift toward cleaner energy,” according to a news release.

“This partnership is rooted in a shared commitment to advancing research that supports a just energy transition,” Ramanan Krishnamoorti, vice president for energy and innovation at UH, says in a news release. “Hydrogen, and in particular low carbon hydrogen, is essential to achieving sustainable energy solutions.”

The UH2HWU program provided $20,000 in seed funding to each of the projects. The program will help with the goal of helping researchers secure additional funding from private sources, companies, and government with a total of 11 proposals being submitted, and a panel of industry experts reviewing them.

One of the winning projects was titled “A joint research project on the feasibility of Repurposing Offshore Infrastructure for Clean Energy in the North Sea aka ROICE North Sea,” and was led by Ram Seetharam, ROICE Program executive director at UH, Edward Owens, professor of energy, geoscience, infrastructure and society at HWU, and Sandy Kerr, associate professor of economics at HWU.

The UH ROICE team focused on reusing old offshore structures for clean energy instead of removing them after their productive life. The UH team created cost and project models for the Gulf of Mexico and will now work with Heriot-Watt University to apply to UK North Sea. UK North Sea has over 250 platforms and about 50,000 kilometers of pipelines. To see more of the projects click here.

“We wanted to bring in industry experts to not only assess the quality of the proposals but also to attract industry support of the projects,” assistant vice president for intellectual property and industrial engagement at UH Michael Harold said in a news release. “It’s a win-win —reviewers get a first look at cutting-edge ideas, and the projects have a chance to build industry interest for future development.”

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Is the Texas power grid prepared for summer 2025 heat?

Guest Column

Although the first official day of summer is not until June 20, Houstonians are already feeling the heat with record-breaking, triple-digit temperatures. The recent heatwave has many Texans wondering if the state’s grid will have enough power to meet peak demand during the summer.

How the Texas grid fared in summer 2024

To predict what could happen as we enter summer this year, it is essential to assess the state of the grid during summer 2024, and what, if anything, has been improved.

According to research from the Federal Reserve Bank of Dallas, solar electricity generation and utility-scale batteries within the ERCOT power grid set records in summer 2024. On average, solar contributed nearly 25 percent of total power needs during mid-day hours between June 1 and August 31. In critical evening hours, when load (demand for electricity) remains elevated but solar output declines, discharge from batteries successfully filled the gap.

Texas added more battery storage capacity than any other state last year, and, excluding California, now has more battery capacity than the rest of the country combined. The state also added 3,410 megawatts of natural gas-fueled power last year. While we did experience major power losses as a result of extreme weather, such as the derecho in May and Hurricane Beryl in July, ERCOT did not have to issue a single conservation appeal last summer to ward off capacity-related outages--and it was the sixth-hottest summer on record.

Policymakers are also taking steps to pass legislation that will help stabilize the grid. During this year’s 89th legislative session, Senate Bill 6 (TX SB6) was introduced, which seeks to:

  • Improve ERCOT's load forecasting transparency
  • Enhance outage protections for residential consumers
  • Adjust transmission cost allocations
  • Bolster grid reliability

In essence, the bill is meant to balance business growth with grid reliability, ensuring that the state continues to be an attractive destination for industrial expansion while preventing reliability risks due to rapid demand increases.

Is the Texas grid prepared for summer 2025?

The good news is that the grid is predicted to be able to manage the energy demand this summer, but there is no guarantee that power disruptions will not happen.

The National Oceanic and Atmospheric Administration has indicated that summer 2025 will likely be warmer and drier than average across most of Texas. Based on ERCOT data and weather projections, West Texas and the Dallas-Fort Worth and Houston metropolitan areas face the highest risk of outages.

While Texas is No. 1 in wind power and No. 2 in solar power, only behind California, there are valid concerns about heavy reliance on renewables when the wind isn’t blowing or the sun isn’t shining, compounded by a lack of large-scale battery storage. Then, there’s the underlying cost and ecological footprint associated with the manufacturing of those batteries. Although solar and wind capacity continues to expand rapidly, integration challenges remain during peak demand periods, especially during the late afternoon when solar generation declines but air conditioning usage remains high.

Additional factors that contribute to the grid’s instability are that Texas faces a massive surge in demand for electricity due to an increase in large users like crypto mining facilities and data centers, as well as population growth. ERCOT predicts that Texas’ energy demand will nearly double by 2030, with power supply projected to fall short of peak demand in a worst-case scenario beginning in summer 2026.

Thanks to investments in solar power, battery storage, and traditional energy sources, ERCOT has made progress in improving grid reliability which indicates that, at least for this summer, energy load will be manageable. A combination of legislative action, strategic planning and technological innovation will need to continue to ensure that this momentum remains on a positive trajectory.

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Sam Luna is director at BKV Energy, where he oversees brand and go-to-market strategy, customer experience, marketing execution, and more.

Ultra-fast EV charging bays coming to Waffle House locations in Texas and beyond

power breakfast

Scattered, smothered and ... charged?

Starting next year, EV drivers can connect to ultra-fast charging stations at select Waffle House locations throughout Texas, courtesy of bp pulse.

The EV arm of British energy giant bp announced a strategic partnership with the all-day breakfast chain this week. The company aims to deploy a network of 400kW DC fast chargers and a mix of CCS and NACS connectors at Waffle House locations in Texas, Georgia, Florida, and other restaurants in the South.

Each Waffle House site will feature six ultra-fast EV charging bays, allowing drivers to "(enjoy) Waffle House’s 24/7 amenities," the announcement reads.

“Adding an iconic landmark like Waffle House to our growing portfolio of EV charging sites is such an exciting opportunity. As an integrated energy company, bp is committed to providing efficient solutions like ultra-fast charging to support our customers’ mobility needs," Sujay Sharma, CEO of bp pulse U.S., said in a news release. "We’re building a robust network of ultra-fast chargers across the country, and this is another example of third-party collaborations enabling access to charging co-located with convenient amenities for EV drivers.”

The news comes as bp pulse continues to grow its charging network in Texas.

The company debuted its new high-speed electric vehicle charging site, known as the Gigahub, at the bp America headquarters in Houston last year. In partnership with Hertz Electrifies Houston, it also previously announced plans to install a new EV fast-charging hub at Hobby Airport. In a recent partnership with Simon Malls, bp also shared plans to install EV charging Gigahubs at The Galleria and Katy Mills Mall.

bp has previously reported that it plans to invest $1 billion in EV charging infrastructure by 2030, with $500 million invested in by the end of 2025.

Houston hypersonic engine co. completes first successful test flight

Taking Off

Houston-based Venus Aerospace successfully completed the first U.S. flight test of its proprietary engine at a demonstration at Spaceport America in New Mexico.

Venus’ next-generation rotating detonation rocket engine (RDRE) is supported by a $155,908 federal Small Business Innovation Research (SBIR) grant from NASA and aims to enable vehicles to travel four to six times the speed of sound from a conventional runway. The recent flight test was the first of an American-developed engine of its kind.

"With this flight test, Venus Aerospace is transforming a decades-old engineering challenge into an operational reality,” Thomas d'Halluin, managing partner at Airbus Ventures, an investor in Venus, said in a news release. “Getting a rotating detonation engine integrated, launch-ready, and validated under real conditions is no small feat. Venus has shown an extraordinary ability to translate deep technical insight into hardware progress, and we're proud to support their bold approach in their attempt to unlock the hypersonic economy and forge the future of propulsion."

Venus’ RDRE operates through supersonic shockwaves, called detonations, that generate more power with less fuel. It is designed to be affordable and scalable for defense and commercial systems.

The RDRE is also engineered to work with the company's air-breathing detonation ramjet, the VDR2, which helps enable aircraft to take off from a runway and transition to speeds exceeding Mach 6. Venus plans for full-scale propulsion testing and vehicle integration of this system. Venus’ ultimate goal is to develop a Mach 4 reusable passenger aircraft, known as the Stargazer M4.

"This milestone proves our engine works outside the lab, under real flight conditions," Andrew Duggleby, Venus co-founder and chief technology officer, said in the release. "Rotating detonation has been a long-sought gain in performance. Venus' RDRE solved the last but critical steps to harness the theoretical benefits of pressure gain combustion. We've built an engine that not only runs, but runs reliably and efficiently—and that's what makes it scalable. This is the foundation we need that, combined with a ramjet, completes the system from take-off to sustained hypersonic flight."

The hypersonic market is projected to surpass $12 billion by 2030, according to Venus.

"This is the moment we've been working toward for five years," Sassie Duggleby, CEO and co-founder of Venus Aerospace, added. "We've proven that this technology works—not just in simulations or the lab, but in the air. With this milestone, we're one step closer to making high-speed flight accessible, affordable, and sustainable."

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This article originally appeared on InnovationMap.com.