Solid polymer electrolyte water electrolysis—development status

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Cited by (23)

  • The history of water electrolysis from its beginnings to the present

    2021, Electrochemical Power Sources: Fundamentals, Systems, and Applications Hydrogen Production by Water Electrolysis
  • Failure of PEM water electrolysis cells: Case study involving anode dissolution and membrane thinning

    2014, International Journal of Hydrogen Energy
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    PEM water electrolysis (sometimes also called solid polymer electrolyte (SPE) water electrolysis) was first developed by General Electric in the 1960s for space applications [4]. It rapidly demonstrated significant advantages [5–7] over alkaline water electrolysis. Such advantages include (i) use of non-corrosive electrolyte, (ii) significantly higher hydrogen production capacity, (iii) higher hydrogen purity and (iv) higher efficiency at much higher current densities.

  • SPE water electrolysis with SPEEK/PES blend membrane

    2010, International Journal of Hydrogen Energy
    Citation Excerpt :

    Therefore, water electrolysis is regarded as a key technique to hydrogen energy. Solid polymer electrolyte (SPE) water electrolysis technology, first developed by General Electric Company in the 1960s for spacecraft applications [1], demonstrated significant advantages [2–4] over conventional alkaline electrolyte water electrolysis. The advantages include much less corrosive electrolyte, much higher volume specific hydrogen production capacity, higher product purity and higher efficiency.

  • The stability of MEA in SPE water electrolysis for hydrogen production

    2010, International Journal of Hydrogen Energy
    Citation Excerpt :

    However, water electrolysis might become a competitive hydrogen production method in the future [10], with the decline of global fossil fuel reserves, the ever growing availability of electricity from other renewable energy resources and the technology improvement of water electrolysis itself. Solid polymer electrolyte (SPE) water electrolysis technology, first developed by General Electric in the 1960s for spacecraft applications [11], demonstrated significant advantages [12–14] over conventional alkaline electrolyte water electrolysis. The advantages include much less corrosive electrolyte, much higher volume specific hydrogen production capacity, higher product purity and higher efficiency.

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