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Solar-Powered Water Electrolysis Using Hybrid Solid Oxide Electrolyzer Cell (SOEC) for Green Hydrogen—A Review

Author

Listed:
  • Shammya Afroze

    (Faculty of Physics and Technical Sciences, L.N. Gumilyov Eurasian National University, Astana 010008, Kazakhstan)

  • Amal Najeebah Shalihah Binti Sofri

    (Faculty of Integrated Technologies, Universiti Brunei Darussalam, Jalan Tungku Link, Gadong BE1410, Brunei)

  • Md Sumon Reza

    (Research Institute of New Chemical Technologies, Faculty of Natural Sciences, L.N. Gumilyov Eurasian National University, Astana 010008, Kazakhstan
    Department of Biological & Agricultural Engineering, North Carolina State University, 3110 Faucette Dr., Raleigh, NC 27695, USA)

  • Zhanar Baktybaevna Iskakova

    (Research Institute of New Chemical Technologies, Faculty of Natural Sciences, L.N. Gumilyov Eurasian National University, Astana 010008, Kazakhstan)

  • Asset Kabyshev

    (Faculty of Physics and Technical Sciences, L.N. Gumilyov Eurasian National University, Astana 010008, Kazakhstan)

  • Kairat A. Kuterbekov

    (Faculty of Physics and Technical Sciences, L.N. Gumilyov Eurasian National University, Astana 010008, Kazakhstan)

  • Kenzhebatyr Z. Bekmyrza

    (Faculty of Physics and Technical Sciences, L.N. Gumilyov Eurasian National University, Astana 010008, Kazakhstan)

  • Lidiya Taimuratova

    (Faculty of Science and Technology, Caspian University of Technology and Engineering Named After Sh. Yessenov, Microdistrict 32, Aktau 130000, Kazakhstan)

  • Mohammad Rakib Uddin

    (College of Nano Science and Engineering, State University of New York Polytechnic Institute, Albany, NY 12203, USA)

  • Abul K. Azad

    (Faculty of Integrated Technologies, Universiti Brunei Darussalam, Jalan Tungku Link, Gadong BE1410, Brunei)

Abstract

The depletion of fossil fuels in the current world has been a major concern due to their role as a primary source of energy for many countries. As non-renewable sources continue to deplete, there is a need for more research and initiatives to reduce reliance on these sources and explore better alternatives, such as renewable energy. Hydrogen is one of the most intriguing energy sources for producing power from fuel cells and heat engines without releasing carbon dioxide or other pollutants. The production of hydrogen via the electrolysis of water using renewable energy sources, such as solar energy, is one of the possible uses for solid oxide electrolysis cells (SOECs). SOECs can be classified as either oxygen-ion conducting or proton-conducting, depending on the electrolyte materials used. This article aims to highlight broad and important aspects of the hybrid SOEC-based solar hydrogen-generating technology, which utilizes a mixed-ion conductor capable of transporting both oxygen ions and protons simultaneously. In addition to providing useful information on the technological efficiency of hydrogen production in SOEC, this review aims to make hydrogen production more efficient than any other water electrolysis system.

Suggested Citation

  • Shammya Afroze & Amal Najeebah Shalihah Binti Sofri & Md Sumon Reza & Zhanar Baktybaevna Iskakova & Asset Kabyshev & Kairat A. Kuterbekov & Kenzhebatyr Z. Bekmyrza & Lidiya Taimuratova & Mohammad Raki, 2023. "Solar-Powered Water Electrolysis Using Hybrid Solid Oxide Electrolyzer Cell (SOEC) for Green Hydrogen—A Review," Energies, MDPI, vol. 16(23), pages 1-22, November.
  • Handle: RePEc:gam:jeners:v:16:y:2023:i:23:p:7794-:d:1288413
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    References listed on IDEAS

    as
    1. Yadav, Deepak & Banerjee, Rangan, 2020. "Net energy and carbon footprint analysis of solar hydrogen production from the high-temperature electrolysis process," Applied Energy, Elsevier, vol. 262(C).
    2. Asim Kumar Sarker & Abul Kalam Azad & Mohammad G. Rasul & Arun Teja Doppalapudi, 2023. "Prospect of Green Hydrogen Generation from Hybrid Renewable Energy Sources: A Review," Energies, MDPI, vol. 16(3), pages 1-17, February.
    3. Jerry L. Holechek & Hatim M. E. Geli & Mohammed N. Sawalhah & Raul Valdez, 2022. "A Global Assessment: Can Renewable Energy Replace Fossil Fuels by 2050?," Sustainability, MDPI, vol. 14(8), pages 1-22, April.
    4. Lukman Ahmed Omeiza & Abdalla M. Abdalla & Bo Wei & Anitha Dhanasekaran & Yathavan Subramanian & Shammya Afroze & Md Sumon Reza & Saifullah Abu Bakar & Abul Kalam Azad, 2023. "Nanostructured Electrocatalysts for Advanced Applications in Fuel Cells," Energies, MDPI, vol. 16(4), pages 1-22, February.
    5. Md Sumon Reza & Shammya Afroze & Kairat Kuterbekov & Asset Kabyshev & Kenzhebatyr Zh. Bekmyrza & Md Naimul Haque & Shafi Noor Islam & Md Aslam Hossain & Mahbub Hassan & Hridoy Roy & Md Shahinoor Islam, 2023. "Advanced Applications of Carbonaceous Materials in Sustainable Water Treatment, Energy Storage, and CO 2 Capture: A Comprehensive Review," Sustainability, MDPI, vol. 15(11), pages 1-56, May.
    6. Keiner, Dominik & Salcedo-Puerto, Orlando & Immonen, Ekaterina & van Sark, Wilfried G.J.H.M. & Nizam, Yoosuf & Shadiya, Fathmath & Duval, Justine & Delahaye, Timur & Gulagi, Ashish & Breyer, Christian, 2022. "Powering an island energy system by offshore floating technologies towards 100% renewables: A case for the Maldives," Applied Energy, Elsevier, vol. 308(C).
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    8. Sanz-Bermejo, Javier & Muñoz-Antón, Javier & Gonzalez-Aguilar, José & Romero, Manuel, 2014. "Optimal integration of a solid-oxide electrolyser cell into a direct steam generation solar tower plant for zero-emission hydrogen production," Applied Energy, Elsevier, vol. 131(C), pages 238-247.
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