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W4300961781 abstract "Recent years have seen a sharp rise in CO 2 emissions into the atmosphere, which has contributed to the issue of global warming. In response to this several technologies have been developed to convert CO 2 into fuel. It is discovered that the employment of a solar-driven thermochemical process (S-DTCP) that transforms CO 2 into fuels can increase the efficiency of the production of sustainable fuels. The process involves the reduction of metal oxide (MO) and oxidizing it with CO 2 in a two-step process using concentrated solar power (CSP) at higher and lower temperatures, respectively. This study summarizes current advancements in CO 2 conversion methods based on MO thermochemical cycles (ThCy), including their operating parameters, types of cycles, and working principles. It was revealed that the efficiency of the solar conversion of CO 2 to fuel is not only influenced by the composition of the MO, but also by its morphology as well as the available surface area for solid/gas reactions and the diffusion length. The conversion mechanism is governed by surface reaction, which is influenced by these two parameters (diffusion length and specific surface area). Solar energy contributes to the reduction and oxidation steps by promoting reaction kinetics and heat and mass transport in the material. The information on recent advances in metal oxide-based carbon dioxide conversion into fuels will be beneficial to both the industrial and academic sectors of the economy." @default.
W4300961781 created "2022-10-04" @default.
W4300961781 creator A5000216493 @default.
W4300961781 creator A5005044461 @default.
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W4300961781 creator A5072769491 @default.
W4300961781 creator A5073938714 @default.
W4300961781 creator A5078200716 @default.
W4300961781 date "2022-10-03" @default.
W4300961781 modified "2023-09-25" @default.
W4300961781 title "Recent advances in the solar thermochemical splitting of carbon dioxide into synthetic fuels" @default.
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W4300961781 doi "https://doi.org/10.3389/fenrg.2022.982269" @default.
W4300961781 hasPublicationYear "2022" @default.
W4300961781 type Work @default.
W4300961781 citedByCount "1" @default.