Commercial and environmental benefits
have made carbon dioxide
(CO2) methanation one of the topmost research projects
all over the world both at the pilot plant and commercial scale. Mitigation
of CO2 via carbon capture and storage (CCS) routes have
less motivation from a commercial point of view. Therefore, an integrated
system is of paramount importance to convert CO2 into value-added
products such as methane (CH4) using solar energy (photosynthesis)
or surplus electrical energy in hydrolysis for production of reactant
hydrogen to use in CO2 methanation. To date, great efforts
have been made to investigate both the reaction mechanism and catalysts
development for methanation. Here in this review, up to date references
have been cited, which are aimed at giving researchers a comprehensive
overview of CO2 methanation with respect to the recent
advancements in reaction mechanism, catalytic materials, and the novel
combination of metal active phase and its synergy. Both thermochemical
and electrochemical routes of CO2 methanation have been
discussed, mainly focusing on thermochemical routes. Among the two
routes, the thermochemical route seems to be a promising technique
for producing an energy carrier due to the high selectivity of CH4.
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