Towards chemical equilibrium in thermochemical water splitting. Part 1: Thermal reduction

Towards chemical equilibrium in thermochemical water splitting. Part 1: Thermal reduction

The efficiency of many processes strongly depends on their thermodynamic reversibility, i.e., proximity to equilibrium throughout the process. In thermochemical cycles for water and/or carbon dioxide splitting, thermochemical air separation, and thermochemical energy storage, operating near equilibr...

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Veröffentlicht in:International journal of hydrogen energy 2021-08, Vol.47 (19)
Hauptverfasser: de la Calle, Alberto, Ermanoski, Ivan, Stechel, Ellen B.
Format: Artikel
Sprache:eng
Schlagworte:
08 HYDROGEN
Chemistry
Counter-current reactor
Electrochemistry
Energy & Fuels
Hydrogen generation
Redox reaction
Solar thermal
Thermochemical water splitting
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Zusammenfassung:The efficiency of many processes strongly depends on their thermodynamic reversibility, i.e., proximity to equilibrium throughout the process. In thermochemical cycles for water and/or carbon dioxide splitting, thermochemical air separation, and thermochemical energy storage, operating near equilibrium means that the oxygen chemical potential of the solid and gas phases must not differ significantly. Herein we show that approaching this ideal is possible in thermal reduction only if the reaction step occurs at a specific, reaction coordinate- and material-dependent temperature. The resulting thermal reduction temperature profile also depends on the ratio of gas and solid flows.
ISSN:0360-3199
1879-3487