Houston geothermal company picks up power purchase agreement in California

seeing green

Under two 15-year deals, Southern California Edison has agreed to buy a total of 320 megawatts of geothermal power from Fervo Energy. Photo via Fervo

Houston-based Fervo Energy, a provider of geothermal power, has signed up one of the country’s largest utilities as a new customer.

Under two 15-year deals, Southern California Edison has agreed to buy a total of 320 megawatts of geothermal power from Fervo. Financial terms weren’t disclosed. The power will be enough to deliver electricity to the equivalent of 350,000 homes.

Southern California Edison, based in Rosemead, California, serves about 15 million people throughout a 50,000-square-mile area in California.

The utility will purchase the power from Fervo’s 400-megawatt Cape Station plant, which is under construction in southwest Utah. The plant’s first phase, providing 70 megawatts of power, is expected to be online by 2026.

“This announcement is another milestone in California’s commitment to clean zero-carbon electricity,” David Hochschild, chair of the California Energy Commission, says in a news release.

“Enhanced geothermal systems complement our abundant wind and solar resources by providing critical base load when those sources are limited,” he adds. “This is key to ensuring reliability as we continue to transition away from fossil fuels.”

In June, Fervo announced it would supply 115 megawatts of geothermal power for Google’s two data centers in Nevada. Two years ago, Fervo signed a deal with energy aggregators in California to supply 53 megawatts of geothermal power from Cape Station.

“As electrification increases and climate change burdens already fragile infrastructure, geothermal will only play a bigger role in U.S. power markets,” says Dawn Owens, Fervo's head of development and commercial markets.

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UH study uncovers sustainable farming methods for hemp production

growth plan

A new University of Houston study of hemp microbes can potentially assist scientists in creating special mixtures of microbes to make hemp plants produce more CBD or have better-quality fibers.

The study, led by Abdul Latif Khan, an assistant professor of biotechnology at the Cullen College of Engineering Technology Division, was published in the journal Scientific Reports from the Nature Publishing Group. The team also included Venkatesh Balan, UH associate professor of biotechnology at the Cullen College of Engineering Technology Division; Aruna Weerasooriya, professor of medicinal plants at Prairie View A&M University; and Ram Ray, professor of agronomy at Prairie View A&M University.

The study examined microbiomes living in and around the roots (rhizosphere) and on the leaves (phyllosphere) of four types of hemp plants. The team at UH compared how these microorganisms differ between hemp grown for fiber and hemp grown for CBD production.

“In hemp, the microbiome is important in terms of optimizing the production of CBD and enhancing the quality of fiber,” Khan said in a news release. “This work explains how different genotypes of hemp harbor microbial communities to live inside and contribute to such processes. We showed how different types of hemp plants have their own special groups of tiny living microbes that help the plants grow and stay healthy.”

The study indicates that hemp cultivation can be improved by better understanding these distinct microbial communities, which impact growth, nutrient absorption, stress resilience, synthesis and more. This could help decrease the need for chemical inputs and allow growers to use more sustainable agricultural practices.

“Understanding these microorganisms can also lead to more sustainable farming methods, using nature to boost plant growth instead of relying heavily on chemicals,” Ahmad, the paper’s first author and doctoral student of Khan’s, said the news release.

Other findings in the study included higher fungal diversity in leaves and stems, higher bacterial diversity in roots and soil, and differing microbiome diversity. According to UH, CBD-rich varieties are currently in high demand for pharmaceutical products, and fiber-rich varieties are used in industrial applications like textiles.

Tom Hanks touches down at Space Center Houston for lunar film premiere

To The Moon

The Artemis Exhibit at Space Center Houston shimmered with star power as nearly 500 insiders gathered for an out-of-this-world affair celebrating the premiere of The Moonwalkers: A Journey with Tom Hanks. The immersive cinematic experience, narrated and co-written by Oscar-winning actor Tom Hanks, offers guests a front-row seat to the triumphs of past lunar missions and a look ahead to NASA’s Artemis era.

The VIP reception brought a celestial twist to the traditional cocktail hour. Guests were served shrimp and oysters, along with potato croquettes paired with peach gastrique, a playful nod to the first vegetable grown in space and the first fruit consumed on the Moon. Espresso martinis featuring Hanks’ coffee brand, Hanx, were shaken and served.

Inside the newly renovated Space Center Theater, a 270-degree projection mapping spectacle brought The Moonwalkers to life. The film weaves rare astronaut interviews with behind-the-scenes glimpses into the upcoming Artemis missions.

Following the screening, a panel discussion brought the experience back to Earth. William T. Harris, Space Center Houston president and CEO, moderated a conversation with Tom Hanks, Apollo 16 moonwalker Charlie Duke, and Artemis II astronauts Victor Glover, Christina Koch, and Reid Wiseman. Together, they explored the film’s themes and what lies ahead as humanity returns to the Moon.

The Moonwalkers: A Journey with Tom Hanks is now on view at Space Center Houston. The immersive show is included in the general admission price. It runs 50 minutes and showings begin on the half hour, starting at 10:30 am.

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A version of this story originally appeared on our sister site, CultureMap.com.

Houston space org to launch experiments aboard first mission into polar orbit

all aboard

Houston's Translational Research Institute for Space Health, or TRISH, will send its latest experiments into space aboard the Fram2 mission, the first all-civilian human spaceflight mission to launch over the Earth’s polar regions.

Fram2, operated by SpaceX, is targeting to launch Monday, March 31, at NASA’s Kennedy Space Center in Florida. The crew of four is expected to spend several days in polar orbit aboard the SpaceX Dragon spacecraft in low Earth orbit. TRISH’s research projects are among 22 experiments that the crew will conduct onboard.

The crew's findings will add to TRISH's Enhancing eXploration Platforms and ANalog Definition, or EXPAND, program and will be used to help enhance human health and performance during spaceflight missions, including missions to the moon and Mars, according to a release from TRISH.

“The valuable space health data that will be captured during Fram2 will advance our understanding of how humans respond and adapt to the stressors of space,” Jimmy Wu, TRISH deputy director and chief engineer and assistant professor in Baylor’s Center for Space Medicine, said in the release. “Thanks to the continued interest in furthering space health by commercial space crews, each human health research project sent into orbit brings us closer to improving crew member well-being aboard future spaceflight missions.”

The six TRISH projects on Fram2 include:

  • Cognitive and Physiologic Responses in Commercial Space Crew on Short-Duration Missions, led by Dr. Mathias Basner at the University of Pennsylvania Perelman School of Medicine. The crew will wear a Garmin smartwatch and a BioIntelliSense BioButton® medical grade device to track cognitive performance, including memory, spatial orientation, and attention before, during, and after the mission.
  • Otolith and Posture Evaluation II, led by Mark Shelhamer at Johns Hopkins University. The experiment will look at how astronauts’ eyes sense and respond to motion before and after spaceflight to better understand motion sickness in space.
  • REM and CAD Radiation Monitoring for Private Astronaut Spaceflight, led by Stuart George at NASA Johnson Space Center. This experiment will test space radiation exposure over the Earth’s north and south poles and how this impacts crew members.
  • Space Omics + BioBank, led by Richard Gibbs and Harsha Doddapaneni at Baylor College of Medicine. The experiment will use Baylor’s Human Genome Sequencing Center's Genomic Evaluation of Space Travel and Research program to gain insights from pre-flight and post-flight samples from astronauts.
  • Standardized research questionnaires, led by TRISH. The test asks a set of standardized research questionnaires for the crew to collect data on their sleep, personality, health history, team dynamics and immune-related symptoms.
  • Sensorimotor adaptation, led by TRISH. The project collects data before and after flight to understand sensorimotor abilities, change and recovery time to inform future missions to the moon.

TRISH, which is part of BCM’s Center for Space Medicine with partners Caltech and MIT, has launched experiments on numerous space missions to date, including Blue Origin's New Shepard rocket last November and Axiom Space's Ax-3 mission to the International Space Station last January.

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