Abstract
Addressing atmospheric CO2 levels is crucial for mitigating global warming and promoting sustainable fossil fuel use. This review explores various CO2 capture strategies, including pre-combustion, post-combustion, oxy-fuel combustion, direct air capture, chemical looping, and polymeric membranes. Each strategy is critically evaluated in terms of its advantages, limitations, and overall effectiveness. Additionally, this study discusses advanced separation techniques for captured CO2, emphasizing recent innovations in membrane technology integrated with cryogenic processes. This integration has the potential to economically extract CO2 from diverse industrial processes, offering significant benefits in terms of operational cost reduction and increased efficiency. A detailed market analysis is also presented to explore feasible CO2 utilization options, highlighting potential incentives and motivations for capturing CO2. Furthermore, the technological readiness level of various capture and separation techniques is assessed, offering insights into their development and progress over time. This comprehensive analysis aims to support the advancement of effective and economically viable CO2 management solutions, contributing to a more sustainable and climate-resilient future.
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