Energy distribution function based universal adsorption isotherm model for all types of isotherm
KAUST DepartmentWater Desalination and Reuse Research Center (WDRC)
Biological and Environmental Sciences and Engineering (BESE) Division
Environmental Science and Engineering Program
Online Publication Date2018-07-11
Print Publication Date2018-09-01
Permanent link to this recordhttp://hdl.handle.net/10754/630748
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AbstractBased upon the adsorbate–adsorbent interactions due to pore size distribution and surface heterogeneity, as characterized by the adsorption isotherms, the adsorption phenomenon has many industrial and environmental applications. These adsorption isotherms are very important to define the information related to the equilibrium uptake of adsorbate–adsorbent pair. Due to the presence of different energy distribution of adsorption sites, pore size distribution, surface area availability and surface heterogeneity, of each of the adsorbent–adsorbate pair, these isotherms are categorized into six types by the International Union of Pure and Applied Chemistry and so far, in the literature, there is no generalized adsorption isotherm model available that can define and predict the behavior of all adsorption isotherm types. In this study, a universal adsorption isotherm model is developed based upon the energy distribution function of the available adsorption sites and the pore size. The proposed model is able to define all adsorption isotherm characteristics, irrespective of their multi- or monolayer formations and micro- or meso-pore distribution.
CitationBurhan M, Shahzad MW, Ng KC (2018) Energy distribution function based universal adsorption isotherm model for all types of isotherm. International Journal of Low-Carbon Technologies 13: 292–297. Available: http://dx.doi.org/10.1093/ijlct/cty031.
PublisherOxford University Press (OUP)
Except where otherwise noted, this item's license is described as This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License , which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is properly cited.