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Solar-Powered Direct Air Capture: Techno-Economic and Environmental Assessment

Enric Prats‐Salvado, Nipun Jaikrishna Jagtap, Nathalie Monnerie, Christian Sattler

2024Environmental Science & Technology35 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Direct air capture (DAC) of CO 2 has gained attention as a sustainable carbon source. One of the most promising technologies currently available is liquid solvent DAC (L-DAC), but the significant fraction of fossil CO 2 in the output stream hinders its utilization in carbon-neutral fuels and chemicals. Fossil CO 2 is generated and captured during the combustion of fuels to calcine carbonates, which is difficult to decarbonize due to the high temperatures required. Solar thermal energy can provide green high-temperature heat, but it flourishes in arid regions where environmental conditions are typically unfavorable for L-DAC. This study proposes a solar-powered L-DAC approach and develops a model to assess the influence of the location and plant capacity on capture costs. The performed life cycle assessment enables the comparison of technologies based on net CO 2 removal, demonstrating that solar-powered L-DAC is not only more environmentally friendly but also more cost-effective than conventional L-DAC.

Topics & Concepts

Fossil fuelEnvironmental scienceEnvironmentally friendlyProcess engineeringRenewable energyCombustionCarbon fibersWaste managementSolar energyEnvironmental engineeringComputer scienceEngineeringChemistryOrganic chemistryEcologyComposite numberElectrical engineeringAlgorithmBiologyCarbon Dioxide Capture TechnologiesClimate Change Policy and EconomicsEnvironmental Impact and Sustainability