Experimental study on hybrid MS‐CA system for post‐combustion CO₂ capture

Abstract: A lab‐scale hybrid membrane separation‐chemical absorption (MS‐CA) system for a post‐combustion process was implemented by combining a hollow‐fibre membrane module and a packed column in series. A solution‐diffusion model and double‐film theory were adopted to investigate the mass‐transfer performance of membrane separation and the chemical absorption process. To determine optimal operational conditions, experiments were conducted to investigate the mass transfer characteristics and CO2 removal of both mono‐st… Show more

“…Recently, Jiang et al . 2018 experimentally investigated a lab‐scale membrane‐chemical absorption hybrid system using a hollow fiber membrane in series with the packed column to measure mass transfer characteristics and optimal operating conditions of the hybrid system. Their results indicated that a CO 2 removal efficiency of 99.49% can be achieved at optimal operating temperature of 40°C, MEA concentration of 10 wt%, and feed gas pressure of 1 MPa.…”

Post‐combustion CO₂ capture with chemical absorption and hybrid system: current status and challenges

“…Recently, Jiang et al . 2018 experimentally investigated a lab‐scale membrane‐chemical absorption hybrid system using a hollow fiber membrane in series with the packed column to measure mass transfer characteristics and optimal operating conditions of the hybrid system. Their results indicated that a CO 2 removal efficiency of 99.49% can be achieved at optimal operating temperature of 40°C, MEA concentration of 10 wt%, and feed gas pressure of 1 MPa.…”

Post‐combustion CO₂ capture with chemical absorption and hybrid system: current status and challenges

Hybrid CO2 capture processes consisting of membranes: A technical and techno-economic review