Electrolytic cell design for electrochemical CO2 reduction

Electrolytic cell design for electrochemical CO2 reduction

[Display omitted] •A critical review on the influence of reactor design for electrochemical CO2 reduction.•The feature, advantage and disadvantage of all types of electrolytic cells are compared.•H-type cell, flow cell and DEMS cell are emphasized with good potentials.•Perspectives and challenges fo...

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Bibliographic Details
Published in:Journal of CO2 utilization Vol. 35; pp. 90 - 105
Main Authors: Liang, Shuyu, Altaf, Naveed, Huang, Liang, Gao, Yanshan, Wang, Qiang
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-01-2020
Subjects:
CO2 conversion
Electrochemical reduction of CO2
Electrolytic cell
Greenhouse gases
Value-added products
Value-added products
CO2 conversion
Electrolytic cell
Greenhouse gases
Electrochemical reduction of CO2
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Summary:[Display omitted] •A critical review on the influence of reactor design for electrochemical CO2 reduction.•The feature, advantage and disadvantage of all types of electrolytic cells are compared.•H-type cell, flow cell and DEMS cell are emphasized with good potentials.•Perspectives and challenges for electrochemical cells are discussed. Transmute CO2 to value-added chemical products by electrochemical reduction is a potential candidate and a highly providential route to mitigate CO2 levels in atmosphere and meet the energy and global warming crisis. Recent reported studies have focused on advancement of novel electro-catalysts with outstanding performance, but unfortunately, little attention has been paid to the influence of reactor design. In this contribution, we for the first time comprehensively review all types of electrolytic cells reported in literatures and compare their features, advantages and disadvantages for CO2 electro-reduction. To date, H-type cell is still the well-known typical reactor for CO2RR, typically for screening electro-catalysts. Based on H-type cell, a similar modified sandwich-type cell is designed to reduce system resistance. However, for industrialization, the flow cell in which the reactants and products are continuously transferred to and away from the electrodes, need further advancement because of its efficient mass transfer efficiency. Besides, the DEMS cell is an effective way to detect products efficiently in real time and analyze reaction process, which is useful for seeking reaction mechanism. The perspectives and challenges for the development of electrochemical cells are also addressed. We hopeful, this review should provide researchers with a clearer understanding of reactor selection, and impart important, timely and valuable insights into the design of advance electrolytic cells and its practical applications for CO2 reduction.
ISSN:2212-9820
2212-9839
DOI:10.1016/j.jcou.2019.09.007