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Economically viable geological CO2 storage from direct air capture has critical threshold of 70% CO2 concentration

Le Zhang, Yunfeng Liang, Arata Kioka, Takeshi Tsuji

2025Communications Engineering10 citationsDOIOpen Access PDF

Abstract

Abstract Direct Air Capture (DAC), a key component of Carbon Capture and Storage (CCS), has been widely studied. However, its large-scale deployment is hindered by the high energy cost of purifying captured CO 2 . Using impure CO 2 can reduce energy consumption and overall costs, but it also lowers storage efficiency. This work employs molecular dynamics simulations to examine storage efficiency by analyzing the impurity systems’ density across a wide temperature and pressure range. The results indicate a strong similarity between the density changes at the macroscopic level and the Van der Waals interaction changes at the molecular level. Additionally, the Normalized Storage Efficiency caused by Impurities (NSEI) is proposed, which can be used for storage potential and cost evaluation. A detailed NSEI analysis suggests that CO 2 concentration should reach at least 70% to achieve economically viable storage. This finding provides practical guidance for DAC capture system design and impurity CCS project planning.

Topics & Concepts

Carbon capture and storage (timeline)Software deploymentvan der Waals forceImpurityEnergy storageProcess engineeringWork (physics)Storage efficiencyEnvironmental scienceChemistryComputer scienceThermodynamicsEngineeringPhysicsMoleculeBiologyClimate changeOrganic chemistryEcologyDatabaseOperating systemPower (physics)Carbon Dioxide Capture TechnologiesCO2 Sequestration and Geologic InteractionsPhase Equilibria and Thermodynamics
Economically viable geological CO2 storage from direct air capture has critical threshold of 70% CO2 concentration | Litcius