Hyun-Bum Cho scite author profile

Unsteady-state absorption of CO 2 into W/O type emulsion was studied by both experimental measurements and prediction from mathematical modeling. Absorption experiments were carried out using a stirred vessel with a¯at gas-liquid interface under 0.101 MPa and 25 C. Continuous phase was benzene, which has larger solubility than water. Dispersed phase was an aqueous solution of MEA, DEA, TEA, and AMP. The effects of reactant concentration, size of aqueous droplets, volume fraction of continuous phase, and stirring speed on the absorption rate of CO 2 were investigated. In the mathematical model, the mechanism of CO 2 absorption into the continuous phase through a gas-liquid interface was described on the basis of the penetration model, while the subsequent absorption/reaction in dispersed droplets was modeled on the basis of the ®lm model.

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Cho

Choi

Jhang

et al. 2012

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Hyun-Bum Cho

CO₂absorption into w/o emulsion with aqueous amine liquid droplets

Esterification of lauric acid with isopropyl alcohol by tricaprylylmethylammonium chloride as a catalyst in a liquid-liquid heterogeneous system

Unsteady-State Absorption of Co 2 Into W/O Type Emulsion with Aqueous Amine Liquid Droplets

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Hyun-Bum Cho

CO2absorption into w/o emulsion with aqueous amine liquid droplets

Esterification of lauric acid with isopropyl alcohol by tricaprylylmethylammonium chloride as a catalyst in a liquid-liquid heterogeneous system

Unsteady-State Absorption of Co 2 Into W/O Type Emulsion with Aqueous Amine Liquid Droplets

Low Power Instruction Cache with Word Selective Line Buffer

Contact Info

Product

Resources

About

CO₂absorption into w/o emulsion with aqueous amine liquid droplets