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Energy Storage in Chemical Fuels
and Electricity Regeneration

Energy Storage in Chemical Fuels and Electricity Regeneration


Green hydrogen production is a key pillar of the Research, Development and Innovation Authority’s renewable energy strategy and is an area where Saudi Arabia is investing heavily. To enable the widespread deployment of low-carbon energy systems, large-scale, long-duration or even seasonal energy storage on electrical grids, it is necessary to implement transportation and distribution capabilities. Hydrogen and hydrogen carrier technologies have the greatest potential to fulfill this role.

This research area focuses on reducing the cost of green hydrogen production based on developing lower-cost catalysts and more economical proton-exchange membranes and ceramic proton-conducting membranes for operation at higher temperatures to accelerate the kinetics of water splitting.

From a techno-economic perspective, formic acid produced by electrolysis of CO2 is considered the most affordable green hydrogen carrier. Hence, the development of “power to formic acid” and “formic acid to power” projects will form part of this research area.

Areas of Focus

  • Ongoing

    Green Hydrogen Production using Advanced Low-cost Catalyst

    KAUST PI(s): Huabin Zhang, Kuo-Wei Huang, Zhiping Lai
    Collaboration Partner(s): N/A
    Collaborative institution: N/A

  • Ongoing

    Green Hydrogen Production using High-temperature Electrolysis

    KAUST PI(s): Yoji Kobayashi, Xu Lu, Huabin Zhang, Kuo-Wei Huang
    Collaboration Partner(s): N/A
    Collaborative institution: N/A

  • Ongoing

    High-pressure CO2 Conversion to Formic Acid

    KAUST PI(s): Xu Lu, Kuo-Wei Huang, Zhiping Lai
    Collaboration Partner(s): N/A
    Collaborative institution: N/A

  • Ongoing

    Formic Acid to Power

    KAUST PI(s): Kuo-Wei Huang, Huabin Zhang, Xu Lu, Yoji Kobayashi
    Collaboration Partner(s): N/A
    Collaborative institution: N/A

  • Ongoing

    Green Ammonia Production

    KAUST PI(s): Yoji Kobayashi
    Collaboration Partner(s): N/A
    Collaborative institution: N/A

  • Ongoing

    Membranes for Hydrogen Separation

    KAUST PI(s): Zhiping Lai
    Collaboration Partner(s): N/A
    Collaborative institution: N/A

Contact Us

Email: crest.energy@kaust.edu.sa

For media inquiries, please contact global.pr@kaust.edu.sa