Research and development on membrane IS process for hydrogen production using solar heat

Odtsetseg Myagmarjav, Jin Iwatsuki, Nobuyuki Tanaka, Hiroki Noguchi, Yu Kamiji, Ioka Ikuo Ioka, Shinji Kubo, Mikihiro Nomura, Tetsuya Yamaki, Shinichi Sawada, Toshinori Tsuru, Masakoto Kanezashi, Xin Yu, Masato Machida, Tatsumi Ishihara, Hiroaki Abekawa, Masahiko Mizuno, Tomoyuki Taguchi, Y. Hosono, Yoshiro KurikiMakoto Inomata, K. Miyajima, Yoshiyuki Inagaki, Nariaki Sakaba

    Research output: Contribution to journalArticlepeer-review

    21 Citations (Scopus)


    Thermochemical hydrogen production has attracted considerable interest as a clean energy solution to address the challenges of climate change and environmental sustainability. The thermochemical water-splitting iodine-sulfur (IS) process uses heat from nuclear or solar power and thus is a promising next-generation thermochemical hydrogen production method that is independent of fossil fuels and can provide energy security. This paper presents the current state of research and development (R&D) of the IS process based on membrane techniques using solar energy at a medium temperature of 600 °C. Membrane design strategies have the most potential for making the IS process using solar energy highly efficient and economical and are illustrated here in detail. Three aspects of membrane design proposed herein for the IS process have led to a considerable improvement of the total thermal efficiency of the process: membrane reactors, membranes, and reaction catalysts. Experimental studies in the applications of these membrane design techniques to the Bunsen reaction, sulfuric acid decomposition, and hydrogen iodide decomposition are discussed.

    Original languageEnglish
    Pages (from-to)19141-19152
    Number of pages12
    JournalInternational Journal of Hydrogen Energy
    Publication statusPublished - Jul 19 2019

    All Science Journal Classification (ASJC) codes

    • Renewable Energy, Sustainability and the Environment
    • Fuel Technology
    • Condensed Matter Physics
    • Energy Engineering and Power Technology


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