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Research progress of non-aqueous absorbents for carbon dioxide capture with low energy consumption: A review

Guanchu Lu, Sarah Farrukh, Xianfeng Fan

2025Fuel38 citationsDOIOpen Access PDF

Abstract

• Amine has great advantages in CO 2 capture effect and treatment capacity. • Lack of systematization review of non-aqueous amine absorbents. • The regeneration energy of reported non-aqueous amine absorbents have thoroughly summarized. • Existing CO 2 capture technologies are summarized from an economic and technical point of view. Amine-based absorption/desorption systems are a well-established method for CO 2 capture process due to their fast absorption rates, high CO 2 loading, and recyclability. However, the significant drawback is the high energy required for solvent regeneration and heavily water evaporation significantly limits their efficiency. To overcome this, non-aqueous CO 2 absorbents have been developed as an alternative, offering advantages such as thermal stability, high absorption capacity, and reduced energy consumption compared to traditional aqueous amine systems. Consequently, research focuses on developing cost-effective, efficient, and sustainable non-aqueous absorbents. This review summarizes findings from 2011 to 2024 on CO 2 capture which employing non-aqueous absorbents, including absorption performance, mechanisms, energy consumption, and challenges. The first section examines amine-based non-aqueous solutions, encompassing single and blended amine absorbents. The second section explores CO 2 binding liquids, and phase-changed amine absorbents. Energy consumption and operational cost comparisons among non-aqueous absorbents in different systems were conducted due to its critical importance. In conclusion, this review highlights the advantages, challenges, and potential of non-aqueous absorbents in CO 2 capture. Addressing energy consumption issues and pursuing sustainable alternatives contribute to progress in carbon capture for mitigating climate change. Future research should prioritize optimizing non-aqueous systems to balance energy savings, cost-effectiveness, and scalability to combat climate change effectively.

Topics & Concepts

Carbon dioxideAqueous solutionLow energyEnergy consumptionChemistryConsumption (sociology)Environmental scienceChemical engineeringProcess engineeringMaterials scienceOrganic chemistryPhysicsEngineeringSocial scienceAtomic physicsSociologyElectrical engineeringCarbon Dioxide Capture TechnologiesAdsorption and Cooling SystemsPhase Equilibria and Thermodynamics
Research progress of non-aqueous absorbents for carbon dioxide capture with low energy consumption: A review | Litcius