关键词: 膜基吸收, 二氧化碳, 传质机理

Abstract: A non-porous hollow fiber contactor containing silicone rubber-polysulphone hollow fiber composite membranes is used for the absorption of CO₂.The effects of various absorbents,liquid volumetric velocity,liquid pressure,concentration of NaOH solution and gas pressure on the efficiency of CO₂ absorption are investigated.The experiment results indicate that the chemical absorption has a higher absorption efficiency than the physical absorption does and the membrane resistance controls the mass transfer accompanied by chemical absorption.Furthermore,when 2×10³ mol/m³ NaOH solution is employed as the Absorbent,the overall mass transfer coefficient(5.21×10^-6 mol·m^-2·s^-1·kPa^-1) almost reaches the value of permeation without absorption(5.85×10^-6 mol·m^-2·s^-1·kPa^-1),and non-porous hollow fiber contactor has a higher selectivity for the existence of liquid film.Finally,the smooth mass transfer process shows that non-porous hollow fiber composite membrane eliminates bubbling and weeping in the liquid phase,which are frequently encountered in microporous hollow fiber contactor.Therefore,non-porous hollow fiber contactor used in this experiment has a potential for using as a gas-liquid contactor.

Key words: Membrane-based absorption, Carbon dioxide, Mechamism of mass transfer