Computational Fluid Dynamics Simulation of a Membrane Contactor for CO<sub>2</sub> Separation: Two Types of Membrane Evaluation
Z. Alborzi, Younes Amini, Parya Amirabedi, Saba Raveshiyan, Amin Hassanvand
Abstract
Abstract Two different types of hollow‐fiber membrane contactors were used for CO 2 separation from the gas stream with monoethanolamine (MEA) absorbent and numerically investigated. After the model validation with experimental data, CO 2 removal efficiency, MEA concentration, and pressure drop variation were examined under different conditions by variation of some effective parameters such as gas stream velocity, absorption solution velocity, membrane porosity, and membrane tortuosity. Membrane tortuosity and porosity enhancement led to light decrease and light increase in CO 2 removal efficiency, respectively, but gas stream velocity enhancement significantly reduced the CO 2 removal efficiency.