Experimental Investigation on the Absorption Enhancement of CO2 by Various Nanofluids in Hollow Fiber Membrane Contactors

Abstract

In this work, suspensions of Fe3O4, CNT, SiO2, and Al2O3 nanoparticles in distilled water are produced and tested as new absorbents in a gas–liquid hollow fiber membrane contactor to investigate the effect of nanoparticles on the rate of mass transfer during CO2 absorption. For this purpose, a pilot-scaled hollow fiber membrane contactor was constructed. A gas mixture was passed through the shell-side, and the nanofluid flowed cocurrently through the lumen side of the fibers. The effects of different operating conditions including gas flow rate, liquid flow rate, inlet CO2 concentration, and nanoparticle concentration on the CO2 absorption have been studied. The results showed that among the operating parameters, liquid flow rate and nanoparticle concentration had the greatest effects on the CO2 absorption. Moreover, UV–vis spectroscopy and DLS method were employed to explore the dispersion stability and hydrodynamic diameter of nanoparticles in the base fluid. The results revealed that nanofluid stabilit...