%0 Journal Article
%@ 09307516
%A Nouh, S.A.
%A Lau, K.K.
%A Shariff, A.M.
%A Kushaari, K.
%D 2013
%F scholars:3739
%J Chemical Engineering and Technology
%K 13X zeolite; 3D analysis; Adsorption efficiency; Adsorption phenomena; Adsorption process; Column dimensions; Concentration profiles; Dynamic adsorption; Dynamics adsorption; Dynamics simulator; Feed concentration; Feed temperature; Flow behaviors; Kinetic adsorption models; Packed column; Separation systems, Adsorption; Atmospheric composition; Computational fluid dynamics; Dynamics; Methane; Porous materials; Reynolds number; Three dimensional; Three dimensional computer graphics, Carbon dioxide
%N 2
%P 277-286
%R 10.1002/ceat.201200526
%T Dynamic Adsorption of CO2 from Methane: Studies on Mass and Heat Transfer
%U https://khub.utp.edu.my/scholars/3739/
%V 36
%X Three-dimensional computational fluid dynamics studies related to dynamics adsorption of CO2 from natural gas is found to be limited. 3D analyses for dynamics adsorption are substantially crucial to give a better prediction on the adsorption process by considering the actual fluid flow behavior within the packed-bed porous media. A kinetic adsorption model has been integrated in a commercial fluid dynamics simulator to simulate the 3D hydrodynamics and adsorption phenomenon in a zeolite-filled packed column for a CO2-methane separation system. The effects of various parameters such as Reynolds number, CO2 feed concentration, feed temperature, and column dimension on CO2 adsorption efficiency have been investigated. A correlation for adsorption efficiency based on the CO2 concentration profiles has been developed and validated. © 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.
%Z cited By 6