Bench-scale demonstration of CO 2 capture with an electrochemically driven proton concentration process

Author(s)

Rahimi, Mohammad; Catalini, Giulia; Puccini, Monica; Hatton, T Alan

Abstract

© The Royal Society of Chemistry 2020. A thorough experimental investigation of a bench-scale apparatus of the proton concentration process with two symmetrical MnO2electrodes is presented, with the aim of continuous desorption of CO2from a K2CO3solution. The electrodes were fabricated through cathodic deposition, and their chemical states, morphology, and microstructural architecture were characterized with X-ray photoelectron spectroscopy (XPS) and scanning electron microscopy (SEM). Successful formation of MnO2film was confirmed by XPS analysis, and the SEM images showed a uniform distribution of the film across the carbon substrate surface and along the strand, with an average thickness of ~500 nm, thus making proton ion diffusion possible. Continuous and efficient desorption of CO2from a K2CO3solution was obtained when electrodeposited MnO2electrodes were used in a flow-based proton concentration process. The amount of CO2desorbed per area of the electrode was 12-fold higher than that of a similar system. The electrochemical nature of the proton concentration process offers substantial practical advantages for the future, especially if electricity can be sustainably produced from renewable sources.

Date issued

2020

URI

https://hdl.handle.net/1721.1/133084

Journal

RSC Advances

Publisher

Royal Society of Chemistry (RSC)

Citation

Rahimi, Mohammad, Catalini, Giulia, Puccini, Monica and Hatton, T Alan. 2020. "Bench-scale demonstration of CO 2 capture with an electrochemically driven proton concentration process." RSC Advances, 10 (29).

Version: Final published version