Energy-Efficient Amine-Based Deep Eutectic Solvents for CO<sub>2</sub> Absorption
Hengbo Fang, Chencan Du, Dongyu Jin, Yuming Tu, Kefeng Liu, Fei Gao, Zhiyong Zhou, Zhongqi Ren
Abstract
High energy consumption during aqueous solvent regeneration limits the development of industrial CO 2 capture. To address this, a series of amine-based deep eutectic solvents (DESs) were designed and synthesized. Analysis using the Arrhenius equation showed a strong linear correlation between ln(η) and 1/ T for DES viscosity. The optimal DES was identified as pyrazole (Pyr)/ N- ethanolamine (EAE) at a 1:5 molar ratio. At 308.15 K and 1 bar, [Pyr][EAE] (1:5) exhibited an absorption capacity of 0.1962 gCO 2 /gDES, and the experimental data were consistent with the values predicted by the Avrami kinetic model. FTIR and DSC confirmed the DES structure and thermostability. Absorption enthalpy, calculated via the Van’t Hoff equation, was determined to be 67.52 kJ/mol. Regeneration energy consumption was calculated as 1.828 GJ/tCO 2 . Absorptive capacity remained stable over 10 absorption–desorption cycles, with FT-IR showing no significant changes in the recycled DES. Additionally, FT-IR and 13 C NMR confirmed chemisorption through carbamate formation.