Abstract

This study investigates an Electrochemically Mediated Amine Regeneration (EMAR) process for CO2 capture using a novel microreactor design. We examined gas–liquid flow patterns and bubble evolution in microchannels, analyzing the effects of flow rate and electrical current on CO2 output, Faraday efficiency, and energy consumption. A periodic electrode polarity switching protocol significantly extended reactor lifetime. While promising for small-scale applications, the EMAR microreactor faces challenges in energy reduction for large-scale implementation. This work provides insights into electrochemical microreactor design for CO2 capture, contributing to advancements in this field.

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