Learn more about the specific missions the Houston Energy Transition Initiative is focused on — from carbon management to finding funding. Photo via htxenergytransition.com

Houston is the energy capital of the world, and it faces a dual challenge: fulfilling growing global energy demand while actively reducing carbon dioxide emissions.

This is why energy leaders have come together at the Houston Energy Transition Initiative, within the Greater Houston Partnership, to strengthen the region’s position for an energy-abundant, low-carbon future. HETI’s impact work is conducted through sector-specific working groups that leverage Houston’s competitive advantage. These working groups include: Carbon Capture, Use and Storage (CCUS), Clean Hydrogen, Capital Formation, Power Management, and Industry Decarbonization.

Texas Gulf Coast as a hub for carbon management

The International Energy Agency (IEA) states that CCUS is a requirement to any realistic pathway to a low-carbon, even net-zero future. This is especially true in the Houston area, which is home to one of the nation’s largest concentrated sources of carbon dioxide. Houston has the geology, knowledge, and infrastructure to support CCUS at scale. The CCUS Working Group at HETI supports key policy enablers of scaling CCUS, including supporting the state to earn permitting authority (primacy) over carbon capture (Class VI) wells. The working group is also analyzing the cumulative impacts of carbon capture on the region’s existing infrastructure and identifying key infrastructure needs for CCUS to reach scale.

Gulf Coast preparing for clean hydrogen liftoff

The Clean Hydrogen working group has created an ecosystem for Houston to lead the clean hydrogen market. The Texas Gulf Coast region is currently home to the world’s largest hydrogen system. By assessing the impact of hydrogen on the economy and the environment, this working group is positioning Houston to be a leading clean hydrogen hub.

Houston as a leader in Industry decarbonization

Houston needs technologies including but not limited to clean hydrogen and CCUS for decarbonization. The HETI Decarbonization Working Group partners with the Mission Possible Partnership and Rocky Mountain Institute to provide a measurable baseline of emissions and identify recommendations for decarbonization pathways in the Houston region.

An energy-abundant, low-carbon future will impact our region’s power management

It is expected that there will be changes in supply and demand of electricity associated with proposed energy transition and decarbonization projects in the Houston area. HETI has partnered with Mission Possible Partnership and Rocky Mountain Institute to assess the impact of energy transition and decarbonization on the growth and resilience of Houston’s regional power grid and the transmission and distribution of energy.

Making Houston a hub for energy transition finance

Financing energy projects is extremely capital intensive. Houston currently serves as a hub for implementing new technologies, and it has the potential to become a major center for financing innovative energy solutions. This includes everything from more efficient, lower-carbon production of existing resources to technological breakthroughs in energy efficiency, renewables, energy storage, and nature-based solutions. For technological breakthroughs, Houston needs a consistent flow of capital to the region, including sources and financing models from venture capital to growth capital, to debt markets and government grants. HETI’s Capital Formation Working Group has mapped inflows and outflows of capital for the energy transition in Houston and found that we need to grow Houston’s capital inflows ten times by 2040 to $150 billion per year to lead the transition. The Working Group regularly convenes for learning sessions on capital markets.

Over the last year, HETI’s working groups have moved from strategy to impact. To learn more about the outcomes of these working groups, check out these resources.

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This article originally ran on the Greater Houston Partnership's Houston Energy Transition Initiative blog. HETI exists to support Houston's future as an energy leader. For more information about the Houston Energy Transition Initiative, EnergyCapitalHTX's presenting sponsor, visit htxenergytransition.org.

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CultureMap Emails are Awesome

Fervo Energy spotlighted by Bill Gates as geothermal’s global growth driver

geothermal predictions

In a new blog post spotlighting Houston-based geothermal power startup Fervo Energy, billionaire Bill Gates — a Fervo investor — predicts geothermal will eventually supply up to 20 percent of the world’s electricity, up from his previous estimate of as much as 5 percent.

Today, geothermal accounts for less than 1 percent of electricity generated around the world, according to the International Energy Agency. The agency forecasts geothermal will represent up to 15 percent of global power by 2050.

“Geothermal power will have a big role to play in our clean energy future, and it’s exciting to see companies like Fervo push the technology to new depths,” Gates wrote.

Gates’ more than $1 billion Breakthrough Energy Ventures fund has contributed to the $982 million pool of money that Fervo has raised since its founding in 2017. Fervo is now a unicorn, meaning its valuation as a private company exceeds $1 billion. Its valuation has been estimated at $1.4 billion.

The Microsoft billionaire published the blog post on his Gates Notes website after touring the site of Fervo’s Cape Station geothermal project, which is under construction in Utah. Fervo says Cape Station will be the world’s largest geothermal plant, capable of someday producing up to 2 gigawatts of power.

Earlier this year, Fervo raised $206 million to put toward the development of Cape Station. Of that amount, $100 million came from Breakthrough Energy Catalyst, a green tech investment program backed by Gates, according to Inc.com.

The first phase of Cape Station is scheduled to be completed in 2026, with first-year power generation pegged at 100 megawatts. An additional 500 megawatts of power-producing capacity is slated to go online in 2028.

“Geothermal is one of the most promising ways to deliver clean energy that’s reliable and affordable,” Gates wrote.

In the blog post, Gates praised the simplicity of geothermal energy.

“The interior of the Earth is incredibly hot, and the deeper you go, the hotter the ground becomes,” he explained. “If you pump fluid deep enough to be warmed by this heat and then pump it back to the surface, you can turn the hot liquid into steam and use it to spin turbines and generate electricity — just like many other types of power plants.”

Gates noted that horizontal drilling is one of Fervo’s biggest innovations. The company extends its wells horizontally by as much as 5,000 feet at the deepest point. It couples horizontal drilling with hydraulic fracturing, or fracking, to extract geothermal energy from rock formations.

Most wells at Cape Station are 8,000 to 9,000 feet deep, and the deepest one is 15,000 feet below the surface, Gates pointed out.

Gates also emphasized the water-conserving, closed-system setup at Cape Station.

“Geothermal energy is one of the more climate-friendly sources of power, but one of its downsides is how much water it uses. … Fervo’s technology captures all the water that would’ve been lost and recirculates it underground to keep the system running,” he wrote.

Cemvita expands in Brazil with acquisition, new leader

going global

Houston industrial biotech company Cemvita has announced two strategic moves to advance its operations in Brazil.

The company, which utilizes synthetic biology to transform carbon emissions into valuable bio-based chemicals, acquired a complementary technology that expands its IP and execution of scale-up capacity, according to a news release. The acquisition will bring additional synthetic biology toolsets that Cemvita believes will assist with compressing and commercializing timelines.

The company also appointed Luciano Zamberlan as vice president of operations based in Brazil.

Zamberlan will lead operational execution, site readiness and early commissioning activities in Brazil. He brings more than 20 years of experience in biotechnology to the role. He recently served as director of engineering at Raízen, Brazil’s largest ethanol producer and the world’s largest producer of sugarcane ethanol. At Raízen, he coordinated the implementation of four greenfield plants and oversaw operational teams and process optimization for second-generation ethanol (E2G) and biogas.

“I am very pleased to join Cemvita, a company at the forefront of transforming waste into valuable, sustainable resources,” Zamberlan said in the release. “My expertise in scaling-up innovation, coupled with my experience in structuring and commissioning greenfield industrial operations, is perfectly aligned with Cemvita's mission and I'm eager to bring my energy and drive to accelerate Cemvita's industrial performance and contribute for a circular future.”

Cemvita expanded to Brazil in January to help capitalize on the country’s progressive regulatory framework, including Brazil’s Fuel of the Future Law, enacted in 2024. The law mandates an increase in the biodiesel content of diesel fuel, starting from 15 percent in March and increasing to 20 percent by 2030. It also requires the adoption of Sustainable Aviation Fuel (SAF) and for domestic flights to reduce greenhouse gas emissions by 1 percent starting in 2027, growing to 10 percent reduction by 2037.

“These steps enable us to augment Brazil’s longstanding bioindustrial ecosystem with next-generation capabilities, reducing early commercialization risk and expanding optionality for future product platforms,” Marcio Silva, CTO of Cemvita, said in the news release. “Together, they strengthen our ability to move from proof-of-concept to industrial reality.”