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Article Dans Une Revue Energy Année : 2020

Solar thermochemical fuel production from H2O and CO2 splitting via two-step redox cycling of reticulated porous ceria structures integrated in a monolithic cavity-type reactor

Anita Haeussler
Anne Julbe
Bruno Cartoixa
  • Fonction : Auteur

Résumé

Solar thermochemical H 2 O and CO 2 splitting cycles represent an efficient route for converting high temperature concentrated solar heat into valuable chemical energy carriers (solar fuels). A new monolithic solar reactor compatible with ceria redox reactions was designed, constructed and tested under concentrated solar radiation. The ceria redox material was shaped and integrated as reticulated porous structures with controlled cell sizes and gradient (10-60 ppi, pores per inch) enabling efficient volumetric solar radiation absorption and micro-scale interconnected porosity favouring the solid-gas reactions. Temperature-swing redox cycling experiments were performed to demonstrate solar reactor reliability during continuous operation. The foams were first thermally activated by increasing the reactor temperature (1400-1450°C) for O 2 release and then exposed to H 2 O or CO 2 stream to produce pure H 2 or CO (700-1100°C), allowing cyclic operation in the same reactor. The influence of operating conditions (including reduction and oxidation temperatures, pressure and type of oxidizing gas) on reactor performance was investigated. An increase of the reduction temperature or a decrease of the operating pressure improved both the ceria reduction extent and fuel production yields (up to 341 µmol/g), while a decrease of the CO:CO 2 ratio (by increasing total inlet gas flow-rate) or an increase of the inlet CO 2 concentration enhanced oxidation 2 rates (up to 9.3 mL/g/min). The obtained fuel production rates outperformed the maximum previously reported values by up to 8 times using the highly-reactive manufactured ceria porous foams cycled between 1400°C and 900°C with oxidation performed in 100% CO 2 upon dynamic cooling. An average H 2 /CO production of ~280 Ncm 3 /cycle (64 cycles performed) was achieved with solar-to-fuel efficiency up to ~7.5% and remarkable material performance stability.
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Dates et versions

hal-02566054 , version 1 (05-11-2020)

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Anita Haeussler, Stéphane Abanades, Anne Julbe, Julien Jouannaux, Bruno Cartoixa. Solar thermochemical fuel production from H2O and CO2 splitting via two-step redox cycling of reticulated porous ceria structures integrated in a monolithic cavity-type reactor. Energy, 2020, 201, pp.117649. ⟨10.1016/j.energy.2020.117649⟩. ⟨hal-02566054⟩
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