Issue 8, 2019

Solar-driven co-thermolysis of CO2 and H2O promoted by in situ oxygen removal across a non-stoichiometric ceria membrane

Abstract

We report on the first ever experimental demonstration of simultaneous thermolysis of CO2 and H2O with in situ separation of fuel and oxygen in a solar-driven membrane reactor. Gaseous CO2/H2O mixtures at molar ratios from 3 : 4 to 2 : 1 were fed to a mixed ionic–electronic conducting non-stoichiometric ceria (CeO2−δ) membrane enclosed in a solar cavity receiver and exposed to simulated concentrated solar radiation of up to 4200 suns. Reaction rates were measured under isothermal and isobaric conditions in the range of 1723–1873 K and 0.2–1.7 Pa O2, yielding a maximum combined CO and H2 fuel production rate of 2.3 μmol cm−2 min−1 at 1873 K and 0.2 Pa O2 at steady state, which corresponded to a conversion of reactants of 0.7%. Under all conditions tested, CO production was favored over H2 production, as expected from theory. Experimental results followed the same trends as the thermodynamic equilibrium limits of membrane-assisted thermochemical fuel production.

Graphical abstract: Solar-driven co-thermolysis of CO2 and H2O promoted by in situ oxygen removal across a non-stoichiometric ceria membrane

Supplementary files

Article information

Article type
Paper
Submitted
18 محرم 1440
Accepted
06 رجب 1440
First published
07 رجب 1440
This article is Open Access
Creative Commons BY license

React. Chem. Eng., 2019,4, 1431-1438

Solar-driven co-thermolysis of CO2 and H2O promoted by in situ oxygen removal across a non-stoichiometric ceria membrane

M. Tou, J. Jin, Y. Hao, A. Steinfeld and R. Michalsky, React. Chem. Eng., 2019, 4, 1431 DOI: 10.1039/C8RE00218E

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