%0 Journal Article
%@ 13640321
%A Andika, R.
%A Nandiyanto, A.B.D.
%A Putra, Z.A.
%A Bilad, M.R.
%A Kim, Y.
%A Yun, C.M.
%A Lee, M.
%D 2018
%F scholars:9826
%I Elsevier Ltd
%J Renewable and Sustainable Energy Reviews
%K Electrolysis; Hydrogen production; Regenerative fuel cells; Solid oxide fuel cells (SOFC); Synthesis gas; Synthesis gas manufacture, Co-electrolysis; ITS applications; Methanol production; Potential power; Power; Process systems engineering; Production pathways; Solid oxide electrolyse cell; Syn gas; Syngas production, Methanol
%P 227-241
%R 10.1016/j.rser.2018.07.030
%T Co-electrolysis for power-to-methanol applications
%U https://khub.utp.edu.my/scholars/9826/
%V 95
%X This article reviews the issues facing co-electrolysis and its applications to the power-to-methanol process. Co-electrolysis is an attractive process for syngas production that uses excess generated electricity. In extended applications, syngas produced from co-electrolysis can be used for various applications like methanol production. In this review, the power-to-methanol process is comprehensively discussed from a process systems engineering viewpoint. The subjects discussed include the reason to choose methanol as a final product, the latest progress in power-to-methanol projects, and a comparison of methanol production from H2-CO (from co-electrolysis) and H2-CO2 mixtures (from electrolysis). Syngas production pathways from co-electrolysis and electrolysis are further investigated, and potential power-to-methanol schemes using co-electrolysis are deployed. Lastly, research directions are proposed to accelerate power-to-methanol commercialization. © 2018 Elsevier Ltd
%Z cited By 64