Chemical Valorisation of Carbon Dioxide
Chapter 10: Gas-phase CO2 Recycling via the Reverse Water–Gas Shift Reaction: A Comprehensive Overview
Published:19 Dec 2022
A. L. Yang, B. J. Gandara-Loe, C. L. Pastor-Pérez, D. Q. Zhang, E. Y. He, and F. T. Ramirez Reina, in Chemical Valorisation of Carbon Dioxide, ed. G. Stefanidis and A. Stankiewicz, The Royal Society of Chemistry, 2022, ch. 10, pp. 208-228.
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Since the Industrial Revolution in the 1860s, the level of atmospheric CO2 has been rising continuously, and this inevitably has taken our planet to an environmental limit situation. In this scenario, significant efforts have been made not only to reduce CO2 emissions at the source but also to remove CO2 via CO2 capture and reutilisation. Among the developed strategies, the utilisation of CO2 in a thermal-catalytic process to produce value-added chemicals and fuels has been attracting enormous attention over other strategies. Recently, the reverse water–gas shift reaction (RGWS) has been placed as a reviving pathway to convert CO2 into CO since this process is the key intermediate stage in CO2 hydrogenation. CO is an essential reactant in different reactions, which allows the further conversion of CO to high-value chemicals, such as methanol, methane, formic acid, olefins and liquid fuels. Thus, the RWGS is able to unlock opportunities to boost the CO2 conversion efficiency and provide a unique opportunity in large-scale industrial applications. However, the design and development of highly active and robust heterogeneous catalysts is still a fundamental requirement for this process to overcome CO2 activation and the catalytic deactivation and yield high level of CO. In this chapter, an overview of the main advances in the RWGS process and the different novel catalysts reported in the last decades are presented. The authors' aim is that this chapter will constitute a useful starting point for researchers working in this field.