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Electrochemical Capture and Storage of CO<sub>2</sub> as Calcium Carbonate

Olawale Oloye, Anthony P. O’Mullane

2021ChemSusChem53 citationsDOIOpen Access PDF

Abstract

Abstract A carbon dioxide capture, conversion, and utilization technology has been developed that can be powered by renewable energy with the potential to mitigate CO 2 emissions. This relies on an electrochemical process whereby the dissolution of carbon dioxide into carbonate ions is accelerated by a locally induced pH change at the cathode. The carbonate ions can then complex with metal cations, such as Ca 2+ , Sr 2+ , or Mn 2+ , present in solution to form their respective metal carbonates, which precipitate out of solution. To ensure the cathode is not fouled by deposition of the insulating metal carbonate, the process is operated under hydrogen evolution conditions, thereby alleviating any significant attachment of the solid to the electrode. This process is demonstrated in CO 2 ‐saturated solutions while the possibility of direct air capture is also shown, where the precipitation of CaCO 3 from atmospherically dissolved CO 2 during electrolysis is observed. The latter process can be significantly enhanced by using 5 vol.% of monoethanolamine (MEA) in the electrochemical cell. Finally, the process is investigated using seawater, which is also successful after the initial precipitation of metal sulfates from solution. In particular, the use of renewable energy to capture CO 2 and create CaCO 3 while also generating hydrogen may be of particular interest to the cement industry, which has a significant CO 2 footprint.

Topics & Concepts

CarbonateElectrochemistryDissolutionCarbon dioxideElectrolysisInorganic chemistryPrecipitationChemistryElectrolysis of waterCathodeChemical engineeringElectrodeElectrolytePhysicsPhysical chemistryMeteorologyOrganic chemistryEngineeringCO2 Sequestration and Geologic InteractionsChemical Looping and Thermochemical ProcessesCarbon Dioxide Capture Technologies
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