NewHydrogen’s ThermoLoop™ Lowers Hydrogen Costs

Lilu Anderson
Photo: Finoracle.net

Understanding Green Hydrogen Production
Green hydrogen is produced by splitting water into oxygen and hydrogen using electricity from renewable sources like solar or wind. However, this method can be costly. Currently, electricity contributes to approximately 73% of the total production cost of green hydrogen.

NewHydrogen's Innovative Approach
NewHydrogen, Inc., in collaboration with the University of California Santa Barbara (UCSB), is working on an innovative technology called ThermoLoop™. Instead of using expensive electricity, ThermoLoop™ utilizes inexpensive heat to produce hydrogen. This could be a game-changer for reducing costs and making green hydrogen more affordable.

Why Heat Over Electricity?
Currently, most green hydrogen is made using the process of electrolysis, which requires electricity. ThermoLoop™ uses a thermochemical process that involves cycles of heating and cooling to split water. By using heat directly, the need for costly electricity is bypassed, making the process more economical.

Developments at UC Santa Barbara
The UCSB team has been instrumental in developing ThermoLoop™ since August 2023. They have successfully designed a reactor test stand that uses thermochemical reactions to generate hydrogen and oxygen from water. This reactor allows them to test different materials and conditions to optimize the hydrogen production process.

Key Advances

  • Reactor Design: UCSB has created a reactor that efficiently produces hydrogen from water using ThermoLoop™ technology.
  • Material Testing: By testing various materials, the team is identifying promising candidates that work well under lower temperatures.
  • Scientific Validation: The team has validated ThermoLoop™'s foundational science by synthesizing and testing materials mentioned in key publications.
  • Co-reactant Identification: Discovering co-reactants that help split water at temperatures below 1000°C.

Future Plans
Looking ahead, UCSB plans to explore new material systems to further enhance the efficiency of hydrogen production. Additionally, they intend to upgrade their test stand to screen a higher volume of materials and develop a model to analyze the economic viability of their process.

The Broader Impact
NewHydrogen aims to revolutionize the green hydrogen sector with ThermoLoop™. As hydrogen is a critical component in numerous industries, lowering production costs can have wide-reaching benefits. This advancement could significantly contribute to a greener economy and support the large-scale adoption of hydrogen as a sustainable energy source.

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Lilu Anderson is a technology writer and analyst with over 12 years of experience in the tech industry. A graduate of Stanford University with a degree in Computer Science, Lilu specializes in emerging technologies, software development, and cybersecurity. Her work has been published in renowned tech publications such as Wired, TechCrunch, and Ars Technica. Lilu’s articles are known for their detailed research, clear articulation, and insightful analysis, making them valuable to readers seeking reliable and up-to-date information on technology trends. She actively stays abreast of the latest advancements and regularly participates in industry conferences and tech meetups. With a strong reputation for expertise, authoritativeness, and trustworthiness, Lilu Anderson continues to deliver high-quality content that helps readers understand and navigate the fast-paced world of technology.