Novel Biphasic Solvent with Tunable Phase Separation for CO₂ Capture: Role of Water Content in Mechanism, Kinetics, and Energy Penalty
2019
Ye, Jiexu | Jiang, Chenkai | Chen, Han | Shen, Yao | Zhang, Shihan | Wang, Lidong | Chen, Jianmeng
The biphasic solvent-based absorption process has been regarded as a promising alternative to the monoethanolamine (MEA)-based process because of its high absorption capacity, phase separation behavior, and potential for conserving energy for CO₂ capture. A trade-off between the absorption capacity and phase separation ratio is critical for developing an advanced biphasic solvent. Typically, water content in the biphasic solvent can be manipulated to tune the phase separation behavior. To explore the relationship between water content and phase separation behavior, an inert organic solvent, 1-methyl-2-pyrrolidinone, was added as a substitute for water in a biphasic solvent, specifically a triethylenetetramine (TETA) and 2-(diethylamino)ethanol (DEEA) blend. Moreover, the water content−kinetics and thermodynamics relationships were also evaluated. Experimental results revealed that reducing the water content was beneficial for phase separation but adverse for adsorption capacity. Kinetic analysis indicated that the water content did not significantly affect the rate of CO₂ absorption at a rich loading. Furthermore, the regeneration heat decreased with the water content. The regeneration heat of TETA–DEEA with a water content of 20 wt % was almost 50% less than that of MEA solution. ¹³C nuclear magnetic resonance analysis revealed that the water content did not affect the reaction mechanism between CO₂ and amines.
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