Rice University team finds economical way to recycle data center heat into power

waste not

A team of Rice University researchers has found a way to convert data center waste into clean power using rooftop solar collectors. Photo courtesy Rice University.

As data centers expand, their energy demands rise as well. Researchers at Rice University have discovered a way to capture low-temperature waste heat from data centers and convert it back into usable power.

The team has introduced a novel solar thermal-boosted organic Rankine cycle (ORC)—a power system that uses a safe working fluid to make electricity from heat. The design incorporates low-cost rooftop flat-plate solar collectors, which warm the data center’s coolant stream before it enters the ORC. The findings, published in Solar Energy, show that the additional “solar bump” helps surpass the technical roadblocks with data center waste, which has typically been too cool to generate power on its own.

The research was supported by the Alliance for Sustainable Energy LLC, the National Renewable Energy Laboratory and the U.S. Department of Energy.

“There’s an invisible river of warm air flowing out of data centers,” Laura Schaefer, the Burton J. and Ann M. McMurtry Chair of Mechanical Engineering at Rice and co-author of the paper, said in a news release. “Our question was: Can we nudge that heat to a slightly higher temperature with sunlight and convert a lot more of it into electricity? The answer is yes, and it’s economically compelling.”

Traditionally, electric heat pumps have been used to raise temperatures before recovery, but the benefits were limited because the pumps consumed significant extra power.

Kashif Liaqat, a graduate student in mechanical engineering at Rice, and Schaefer achieved a "temperature lift” by using solar energy to create thermoeconomic models. They modeled affordable, low-profile rooftop solar collectors that fed into an ORC and tied into a liquid-cooling loop. The collectors were validated against industry tools and tested at some of America’s largest data center hubs in Ashburn, Virginia, and Los Angeles, which provided varying climate challenges.

The system recovered 60 percent to 80 percent more electricity annually from the same waste heat, with a 60 percent boost in Ashburn and an 80 percent boost in Los Angeles, according to Rice. It also achieved over 8 percent higher ORC efficiency during peak hours, and an increase in annual average efficiency. The approach also lowered the cost of electricity from the recovered power by 5.5 percent in Ashburn and by 16.5 percent in Los Angeles.

“What the industry considers a weakness becomes a strength once you add solar,” Liaqat said in a news release. “That’s great news for modern data centers.”

Next up, the team will look to pilot its hybrid system in operational sites and explore thermal storage, which the researchers hope could bank solar heat during the day to assist with energy recovery efforts at night.

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Energy startup Base Power raises $1 billion series C round

fresh funding

Austin-based startup Base Power, which offers battery-supported energy in the Houston area and other regions, has raised $1 billion in series C funding—making it one of the largest venture capital deals this year in the U.S.

VC firm Addition led the $1 billion round. All of Base Power’s existing major investors also participated, including Trust Ventures, Valor Equity Partners, Thrive Capital, Lightspeed Venture Partners, Andreessen Horowitz (a16z), Altimeter, StepStone Group, 137 Ventures, Terrain, Waybury Capital, and entrepreneur Elad Gil. New investors include Ribbit Capital, Google-backed CapitalG, Spark Capital, Bond, Lowercarbon Capital, Avenir Growth Capital, Glade Brook Capital Partners, Positive Sum and 1789 Capital Management.

Coupled with the new $1 billion round, Base Power has hauled in more than $1.27 billion in funding since it was founded in 2023.

Base Power supplies power to homeowners and the electric grid through a distributed storage network.

“The chance to reinvent our power system comes once in a generation,” Zach Dell, co-founder and CEO of Base Power, said in a news release. “The challenge ahead requires the best engineers and operators to solve it, and we’re scaling the team to make our abundant energy future a reality.”

Zach Dell is the son of Austin billionaire and Houston native Michael Dell, chairman and CEO of Round Rock-based Dell Technologies.

In less than two years, Base Power has developed more than 100 megawatt-hours of battery-enabled storage capacity. One megawatt-hour represents one hour of energy use at a rate of one million watts.

Base Power recently expanded its service to the city of Houston. It already was delivering energy to several other communities in the Houston area. To serve the Houston region, the startup has opened an office in Katy.

The startup also serves the Dallas-Fort Worth and Austin markets. At some point, Base Power plans to launch a nationwide expansion.

To meet current and future demand, Base Power is building its first energy storage and power electronics factory at the former downtown Austin site of the Austin American-Statesman’s printing presses.

“We’re building domestic manufacturing capacity for fixing the grid,” Justin Lopas, co-founder and chief operating officer of Base Power, added in the release. “The only way to add capacity to the grid is [by] physically deploying hardware, and we need to make that here in the U.S. ... This factory in Austin is our first, and we’re already planning for our second.”

ExxonMobil postpones $10B plastics manufacturing plant

plastics project postponed

Spring-based ExxonMobil is postponing development of a $10 billion plastics manufacturing plant along the Gulf Coast. Construction on the plant, to be located near Port Lavaca, was supposed to begin next year.

“Based on current market conditions, we are going to slow the pace of our development for the Coastal Plain Venture,” ExxonMobil confirmed in an emailed statement. “We’re confident in our growth strategy, and we remain interested in a potential project along the U.S. Gulf Coast and in other regions around the world. We’re maintaining good relationships with community leaders and contractors, so we are ready to reevaluate the project’s status when market conditions improve.”

According to Independent Commodity Intelligence Services, the Coastal Plain project was preliminary, and ExxonMobil had not yet announced its decision about building a plant for polyethylene production. Polyethylene, the world’s most common plastic, is used in a variety of products, such as bags, bottles, food containers, automotive components, medical tubes, IV bags, children’s toys and cutting boards.

The Coastal Plain postponement follows a judge’s ruling in August that invalidated a decision by Calhoun County ISD board members to negotiate tax breaks with ExxonMobil, according to Inside Climate News. The judge made the ruling in a case filed by environmental activist Diane Wilson and her nonprofit group, San Antonio Bay Estuarine Waterkeeper.

Wilson told Inside Climate News that she thought public opposition played a part in ExxonMobil postponing the Coastal Plain project.

“I think if everybody had just rolled over for them, if they got exactly what they wanted (tax breaks) and there wasn’t a big fight, there would be no delay,” Wilson said.

KBR shifts sustainability focus with planned spinoff

seeing green

Houston-based KBR, a provider of technology and engineering services for government and private-sector customers, is pursuing a tax-free spinoff of its Mission Technology Solutions business as a public company. Following the spinoff, KBR would remain a public company.

The new company, nicknamed SpinCo, would focus on technology and engineering services for the space and national security sectors. The scaled-down KBR, nicknamed RemainCo, would concentrate solely on sustainability technology and services designed to reduce carbon emissions and support energy transition efforts.

According to the company, RemainCo, or New KBR, will is positioned to serve the ammonia and syngas, chemical and petrochemicals, clean refining, and circular economy markets.

Stuart Bradie, chairman, president and CEO of KBR, said that from July 2024 to July 2025, the Mission Technology Solutions segment generated revenue of $5.8 billion. During the same period, the Sustainability Technology Solutions segment posted revenue of $3.7 billion.

KBR has forecast fiscal year 2025 revenue of $8.1 billion, up from $7.7 billion during the previous fiscal year. The company’s 2026 fiscal year starts in January.

In a news release, KBR said SpinCo and the restructured KBR would “deliver long-term profitable growth and value for customers, associates, and shareholders.”

“Our team has successfully built two leading businesses with the necessary scale and strong financial profile to enable us to take this next exciting step,” Bradie told Wall Street analysts.

Over the past decade, Bradie said, KBR has evolved into “a leading provider of differentiated, innovative, up-market science, technology, and engineering solutions with global scale, global reach, and global impact.” The spinoff would create two public companies that’ll “unlock the next phase of value creation,” he added.

Bradie will be chairman, president, and CEO of the newly configured KBR, while Mark Sopp, KBR’s executive vice president and chief financial officer, will transition to oversight of the Mission Technology Solutions spinoff. Effective Jan. 5, Shad Evans will succeed Sopp as CFO of KBR. He currently is KBR’s senior vice president of financial operations.

Bradie said an executive search firm has been hired to identify candidates for the CEO and CFO roles at SpinCo.

The spinoff is expected to be completed in mid- to late 2026.

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