Issue 9, 2024

Acid–base concentration swing for direct air capture of carbon dioxide

Abstract

This work demonstrates the first experimental evidence of the acid–base concentration swing (ABCS) for direct air capture of CO2. This process is based on the effect that concentrating particular acid–base chemical reactants will strongly acidify solution, through Le Chatelier's principle, and result in outgassing absorbed CO2. After collecting the outgassed CO2, diluting the solution will result in a reversal of the acid–base reaction, basifying the solution and allowing for atmospheric CO2 absorption. The experimental study examines a system that includes sodium cation as the alkalinity carrier, boric acid, and a polyol complexing agent that reversibly reacts with boric acid to strongly acidify solution upon concentration. Though the tested experimental system faces absorption rate and water capacity limitations, the ABCS process described here provides a basis for further process optimization. A generalized theoretical ABCS reaction framework is developed and different reaction orders and conditions are studied mathematically. Higher order reactions yield favorable cycle output results, reaching volumetric cycle capacity above 50 mM for third-order and 80 mM for fourth-order reactions. Optimal equilibrium constants are determined in order to guide alternative chemical searches and synthetic chemistry design targets. There is a substantial energetic benefit for reaction orders above the first, with second- and third-order ABCS cycles exhibiting a thermodynamic minimum work for the concentrating and outgassing steps around 150 kJ per mole of CO2. A significant advantage of the ABCS is that it can be driven through well-developed and widely-deployed desalination technologies, such as reverse osmosis, with opportunities for energy recovery when recombining the concentrated and diluted streams, and extraction can occur directly from the liquid phase upon vacuum application.

Graphical abstract: Acid–base concentration swing for direct air capture of carbon dioxide

Associated articles

Supplementary files

Article information

Article type
Paper
Submitted
19 Apr. 2024
Accepted
05 Aug. 2024
First published
13 Aug. 2024
This article is Open Access
Creative Commons BY-NC license

Energy Adv., 2024,3, 2295-2310

Acid–base concentration swing for direct air capture of carbon dioxide

A. Rinberg and M. J. Aziz, Energy Adv., 2024, 3, 2295 DOI: 10.1039/D4YA00251B

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