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Quo Vadis Dry Reforming of Methane?—A Review on Its Chemical, Environmental, and Industrial Prospects

Luis Sandoval‐Diaz, Robert Schlögl, Thomas Lunkenbein

2022Catalysts31 citationsDOIOpen Access PDF

Abstract

In recent years, the catalytic dry reforming of methane (DRM) has increasingly come into academic focus. The interesting aspect of this reaction is seemingly the conversion of CO2 and methane, two greenhouse gases, into a valuable synthesis gas (syngas) mixture with an otherwise unachievable but industrially relevant H2/CO ratio of one. In a possible scenario, the chemical conversion of CO2 and CH4 to syngas could be used in consecutive reactions to produce synthetic fuels, with combustion to harness the stored energy. Although the educts of DRM suggest a superior impact of this reaction to mitigate global warming, its potential as a chemical energy converter and greenhouse gas absorber has still to be elucidated. In this review article, we will provide insights into the industrial maturity of this reaction and critically discuss its applicability as a cornerstone in the energy transition. We derive these insights from assessing the current state of research and knowledge on DRM. We conclude that the entire industrial process of syngas production from two greenhouse gases, including heating with current technologies, releases at least 1.23 moles of CO2 per mol of CO2 converted in the catalytic reaction. Furthermore, we show that synthetic fuels derived from this reaction exhibit a negative carbon dioxide capturing efficiency which is similar to burning methane directly in the air. We also outline potential applications and introduce prospective technologies toward a net-zero CO2 strategy based on DRM.

Topics & Concepts

SyngasCarbon dioxide reformingMethaneGreenhouse gasEnvironmental scienceNatural gasCombustionMethane reformerProcess engineeringChemistryBiochemical engineeringWaste managementCatalysisSteam reformingEngineeringOrganic chemistryHydrogen productionEcologyBiologyCatalysts for Methane ReformingCO2 Reduction Techniques and CatalystsCatalysis and Oxidation Reactions
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