Interfacial chemical mechanisms of brine salinity affecting the CO2 foam stability and its effect on the sequestration capacity of CO2 in deep saline aquifer
Author:
Funder
National Natural Science Foundation of China
China Postdoctoral Science Foundation
Publisher
Elsevier BV
Reference77 articles.
1. Comparative numerical study on the co-optimization of CO2 storage and utilization in EOR, EGR, and EWR: Implications for CCUS project development;Edouard;Appl. Energy,2023
2. A comprehensive review of value-added CO2 sequestration in subsurface saline aquifers;Kumar;J. Nat. Gas Sci. Eng.,2020
3. Cost curve of large-scale deployment of CO2-enhanced water recovery technology in modern coal chemical industries in China;Li;Int. J. Greenhouse Gas Control,2019
4. Emission reduction path for coal-based enterprises via carbon capture, geological utilization, and storage: China energy group;Liu;Energy,2023
5. Numerical study of CO2 geological storage combined with saline water recovery and optimization of injection-production schemes in eastern Junggar Basin of China;Yang;Int. J. Greenhouse Gas Control,2021
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