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Greentown scores federal funding, Houston startups win big, and more trending energy transition news

Three Houston energy tech startups win awards at local innovation event — and more top stories from the week. Photo by Emily Jaschke/InnovationMap

Editor's note: It's been a busy news week for energy transition in Houston, and some of this week's headlines resonated with EnergyCapital readers on social media and daily newsletter. Trending news included wins for Houston energy tech startups, federal funding for Greentown Houston, and more.

Canadian company secures Houston funding, relocates HQ

Ambyint has fresh funding and a new main office. Photo via Getty Images

An AI-powered energy tech company has raised additional funding and relocated it's main office to Canada.

Ambyint, a Canadian-founded company that's had a Houston presence for a few years, has announced its latest round of funding and new headquarters. The software company provides energy customers with its AI-powered production and artificial lift optimization platform.

The funding comes from existing investors, Houston-based Mercury and Montrose Lane, plus two new investors, BDC Capital and Accelerate Fund III. The undisclosed amount of funding will go toward customer growth, hiring, and new enhancements to the technology, including expanding emissions mitigation capabilities.

"We have the wind in our sails and are extremely proud to see this transaction close,” Benjamin Kemp, CEO of Ambyint, says in a news release. “This investment allows us to double down on the energy market and further our AI-enabled optimization platform. Validation from our customers, talented employees, and investors is most welcome as we continue to scale.” Read more.

3 Houston energy startups score awards at annual innovation event

Three energy tech startups secured wins at the Houston Innovation Awards. Photos courtesy

Three energy tech startups scored wins this week at the annual Houston Innovation Awards.

The awards program — hosted by EnergyCapital's sister site, InnovationMap, and Houston Exponential — named its winners on November 8 at the Houston Innovation Awards. The program was established to honor the best and brightest companies and individuals from the city's innovation community.

Eighteen Houston energy startups were named finalists last month across categories, and three won awards. Read more.

Greentown Houston selected for federal program that's accelerating tech entrepreneurship

Greentown Houston has received funding from the EDA. Photo via GreentownLabs.com

Sixty organizations across the country have received a grant from the United States Department of Commerce — and one recipient is based in Houston.

Greentown Labs, dual located in Houston and Somerville, Massachusetts, has received a grant from the 10th cohort of the Economic Development Administration's “Build to Scale” program for its Houston location. The $53 million of funding was awarded to 60 organizations across 36 states, the District of Columbia, and Puerto Rico. All of the programs support technology entrepreneurs across industries.

“The Biden-Harris Administration is Investing in America to help create entrepreneurial ecosystems across the country and put quality, 21st century job opportunities in people’s backyards,” Secretary of Commerce Gina Raimondo says in the press release. “The ‘Build to Scale’ program will unlock innovation potential in regions all over the nation, improving our economic competitiveness now, and for decades to come.” Read more.

Oxy subsidiary gets $550M boost to form new CCUS joint venture

Oxy, which broke ground on its DAC project Stratos earlier this year, has secured a $550 million commitment from a financial partner. Photo via 1pointfive.com

Occidental Petroleum’s direct air capture (DAC) initiative just got a more than half-a-billion-dollar investment from Blackrock, the world’s largest asset management company.

Houston-based Occidental announced November 7 that on behalf of its investment clients, BlackRock has agreed to pump $550 million into the DAC facility, called Stratos, that Oxy is building in the Midland-Odessa area. The investment will be carried out through a joint venture between BlackRock and Oxy subsidiary 1PointFive, which specializes in carbon capture, utilization, and sequestration (CCUS).

A groundbreaking ceremony for Stratos — being billed as the world’s largest DAC operation — was held in April 2023. Construction is scheduled to be completed in mid-2025. The facility is expected to capture up to 500,000 metric tons of carbon dioxide each year. Read more.

Global corporation to open generative AI studio geared toward energy, chemicals industries in Houston

Accenture's Houston hub will introduce a new generative AI studio. Photo via Getty Images

Accenture has announced a new studio coming to Houston that will help its industrial clients with generative artificial intelligence.

The company announced that it will launch a network of studios across North America that will work with clients to explore generative AI applications in business. The initiative will support companies in navigating use cases, conducting AI pilots, and scaling programs. The studios will be in Accenture Innovation Hubs in Chicago, Houston, New York, San Francisco, Toronto and Washington, D.C.

“The studios are designed to help our clients move from interest to action to value, in a responsible way with clear business cases,” Manish Sharma, North America CEO of Accenture, says in the news release. “We are constantly refreshing our learnings from more than 3,000 client conversations on generative AI this year. We use these conversations as demand signals to understand the real-world challenges our clients face and invest in the areas of greatest need and opportunity.” Read more.

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A View From HETI

Ahmad Elgazzar, Haotian Wang and Shaoyun Hao were members of a Rice University team that recently published findings on how acid bubbling can improve CO2 reduction systems. Photo courtesy Rice.

In a new study published in the journal Science, a team of Rice University researchers shared findings on how acid bubbles can improve the stability of electrochemical devices that convert carbon dioxide into useful fuels and chemicals.

The team led by Rice associate professor Hoatian Wang addressed an issue in the performance and stability of CO2 reduction systems. The gas flow channels in the systems often clog due to salt buildup, reducing efficiency and causing the devices to fail prematurely after about 80 hours of operation.

“Salt precipitation blocks CO2 transport and floods the gas diffusion electrode, which leads to performance failure,” Wang said in a news release. “This typically happens within a few hundred hours, which is far from commercial viability.”

By using an acid-humidified CO2 technique, the team was able to extend the operational life of a CO2 reduction system more than 50-fold, demonstrating more than 4,500 hours of stable operation in a scaled-up reactor.

The Rice team made a simple swap with a significant impact. Instead of using water to humidify the CO2 gas input into the reactor, the team bubbled the gas through an acid solution such as hydrochloric, formic or acetic acid. This process made more soluble salt formations that did not crystallize or block the channels.

The process has major implications for an emerging green technology known as electrochemical CO2 reduction, or CO2RR, that transforms climate-warming CO2 into products like carbon monoxide, ethylene, or alcohols. The products can be further refined into fuels or feedstocks.

“Using the traditional method of water-humidified CO2 could lead to salt formation in the cathode gas flow channels,” Shaoyun Hao, postdoctoral research associate in chemical and biomolecular engineering at Rice and co-first author, explained in the news release. “We hypothesized — and confirmed — that acid vapor could dissolve the salt and convert the low solubility KHCO3 into salt with higher solubility, thus shifting the solubility balance just enough to avoid clogging without affecting catalyst performance.”

The Rice team believes the work can lead to more scalable CO2 electrolyzers, which is vital if the technology is to be deployed at industrial scales as part of carbon capture and utilization strategies. Since the approach itself is relatively simple, it could lead to a more cost-effective and efficient solution. It also worked well with multiple catalyst types, including zinc oxide, copper oxide and bismuth oxide, which are allo used to target different CO2RR products.

“Our method addresses a long-standing obstacle with a low-cost, easily implementable solution,” Ahmad Elgazzar, co-first author and graduate student in chemical and biomolecular engineering at Rice, added in the release. “It’s a step toward making carbon utilization technologies more commercially viable and more sustainable.”

A team led by Wang and in collaboration with researchers from the University of Houston also shared findings on salt precipitation buildup and CO2RR in a recent edition of the journal Nature Energy. Read more here.

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