Some Considerations on the Electrolysis of Water from Sodium Hydroxide Solutions
- 1 December 2000
- journal article
- Published by ASME International in Journal of Solar Energy Engineering
- Vol. 123 (2) , 143-146
- https://doi.org/10.1115/1.1351173
Abstract
The unusually high solubilities and thermal coefficients of solubility of the alkali metal hydroxides make them attractive candidates for high-temperature electrolytic processes to produce high-pressure hydrogen. The feasibility of using strong sodium hydroxide (to keep down the saturation pressure of the condensed phase) electrolysis (to facilitate the separation of the hydrogen from oxygen over a liquid phase) at high temperatures (to increase the energy efficiency by substitution of process heat for electric power) and to increase the production rate in a given cell (by increasing the specific conductance of the working fluid) is explored and discussed. Suggestions are made for future research.Keywords
This publication has 9 references indexed in Scilit:
- Solarthermal and Solar Quasi-Electrolytic Processing and Separations: Zinc from Zinc Oxide as an ExampleIndustrial & Engineering Chemistry Research, 1999
- High temperature solar electrothermal processing—III. Zinc from zinc oxide at 1200–1675K using a non-consumable anodeEnergy, 1988
- High temperature solar electrothermal processing—II. Zinc from zinc oxideEnergy, 1985
- Water vapour partial pressures and water activities in potassium and sodium hydroxide solutions over wide concentration and temperature rangesInternational Journal of Hydrogen Energy, 1985
- High temperature solar electrothermal processing—Zinc from zinc oxideEnergy, 1983
- Hydrogen- and Oxygen from WaterScience, 1977
- Thermochemical Hydrogen GenerationScience, 1974
- Thermochemical Water Decomposition ProcessesProduct R&D, 1974
- Vapor Pressures of Aqueous Solutions at High Temperatures1Journal of the American Chemical Society, 1942