Effects of Varying Spiral-Ring Pitches on CO2 Absorption by Amine Solution in Concentric Circular Membrane Contactors
Chii-Dong Ho, Jui-Wei Ke, Jun-Wei Lim

TL;DR
This paper shows that optimizing spiral ring pitch configurations in membrane contactors significantly improves CO2 absorption efficiency using amine solutions.
Contribution
The study introduces optimized spiral ring pitch configurations that enhance CO2 absorption flux by reducing concentration polarization and increasing turbulence.
Findings
Descending spiral ring pitch operations achieved higher turbulent intensity and reduced concentration polarization resistance.
An 83.69% enhancement in absorption flux was observed under specific CO2 and MEA flow conditions.
A generalized Sherwood number expression was derived to predict mass transfer coefficients for CO2 absorption.
Abstract
The CO2 absorption flux while using monoethanolamide (MEA) solution in a spiral-wired channel was significantly enhanced by optimizing both the descending and ascending spiral ring pitch configurations within the filled channel. In this study, two distinct spiral ring pitch configurations were integrated into concentric circular membrane contactors to augment CO2 absorption flux. Spiral rods were strategically inserted to mitigate concentration polarization effects, thereby reducing mass transfer boundary layers and increasing turbulence intensity. A theoretical one-dimensional model was developed to predict absorption flux and concentration distributions across varying MEA absorbent flow rates, CO2 feed flow rates, and inlet CO2 concentrations in the gas feed. Theoretical predictions of absorption flux improvement were validated against experimental results, demonstrating favorable…
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Taxonomy
TopicsAdvanced battery technologies research · Membrane Separation and Gas Transport · Fuel Cells and Related Materials
