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Article Dans Une Revue Journal of Energy Chemistry Année : 2020

Solar chemical looping reforming of methane combined with isothermal H2O/CO2 splitting using ceria oxygen carrier for syngas production

Résumé

The chemical looping reforming of methane through the nonstoichiometric ceria redox cycle (CeO 2 /CeO 2−δ) has been experimentally investigated in a directly irradiated solar reactor to convert both solar energy and methane to syngas in the temperature range 900-1050°C. Experiments were carried out with different ce-ria shapes via two-step redox cycling composed of endothermic partial reduction of ceria with methane and complete exothermic re-oxidation of reduced ceria with H 2 O/CO 2 at the same operating temperature, thereby demonstrating the capability to operate the cycle isothermally. A parametric study considering different ceria macrostructure variants (ceria packed powder, ceria packed powder mixed with inert Al 2 O 3 particles, and ce-ria reticulated porous foam) and operating parameters (methane flow-rate, reduction temperature, or sintering temperature) was conducted in order to unravel their impact on the bed-averaged oxygen non-stoichiometry (δ), syngas yield, methane conversion, and solar reactor performance. The ceria cycling stability was also experimentally investigated to demonstrate repeatable syngas production by alternating the flow between CH 4 and H 2 O (or CO 2). A decrease in sintering temperature of the ceria foam was beneficial for increasing syngas selectivity, methane conversion, and reactor performance. Increasing both CH 4 concentration and reduction temperature enhanced δ with the maximum value up to 0.41 but concomitantly favored CH 4 cracking reaction. The ceria reticulated porous foam showed better performance in terms of effective heat transfer, due to volumetric absorption of concentrated solar radiation and uniform heating with lower solar power consumption , thereby promoting the solar-to-fuel energy conversion efficiency that reached up to 5.60%. The energy upgrade factor achieved during cycle was up to 1.19. Stable patterns in the δ and syngas yield for consecutive cycles with the ceria foam validated material performance stability.
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Dates et versions

hal-02163394 , version 1 (10-11-2020)

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Srirat Chuayboon, Stéphane Abanades, Sylvain Rodat. Solar chemical looping reforming of methane combined with isothermal H2O/CO2 splitting using ceria oxygen carrier for syngas production. Journal of Energy Chemistry, 2020, 41, pp.60-72. ⟨10.1016/j.jechem.2019.05.004⟩. ⟨hal-02163394⟩
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