Effect of Adsorbent Particle Layering on Performance of Conventional and Tapered Fixed-Bed Adsorbers
Publication: Journal of Environmental Engineering
Volume 131, Issue 11
Abstract
Experimental and modeling studies were conducted for the adsorption of phenol from aqueous solutions onto activated carbon in fixed beds with the adsorbent particles layered according to particle size. In the conventional stratified cylindrical adsorber (SCA), the particles were layered according to natural stratification, and increased in size with column depth. In the reverse stratified tapered adsorber (RSTA), the particle size decreased with column depth, and the fluid velocity decreased in the direction of flow. Experimental data indicate that for a uniform particle size distribution, the breakthrough time for the RSTA was about 60% higher than for the SCA under identical carbon loading and flow conditions. The homogeneous solid phase diffusion model with Linear-Freundlich isotherm was used to model the layered adsorbers. It provides excellent predictions for breakthrough curves at various column depths. Bed capacity utilization can be increased with the RSTA due to the sharpening of the solute front, and this will translate into lower capital and operating costs for the carbon adsorption system due to the smaller unit required, lower carbon inventory, and lower pumping costs.
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Acknowledgments
This material is based upon work supported by the National Science Foundation under Grant No. NSF9414676. Assistance from Imad Basheer in obtaining the experimental data is acknowledged and appreciated.
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Information & Authors
Information
Published In
Journal of Environmental Engineering
Volume 131 • Issue 11 • November 2005
Pages: 1488 - 1494
Copyright
© 2005 ASCE.
History
Received: Aug 16, 2004
Accepted: Mar 10, 2005
Published online: Nov 1, 2005
Published in print: Nov 2005
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