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Cited 11 time in webofscience Cited 10 time in scopus
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The retrograde adsorption phenomenon at the onset of breakthrough and its quantitation: An experimental case study for gaseous toluene on activated carbon surface

Authors
Vikrant, KumarKim, Ki-HyunSzulejko, Jan E.
Issue Date
Nov-2019
Publisher
Academic Press
Keywords
Large-volume injector; Gas chromatography; Flame ionization detector; Adsorption; Volatile organic compounds
Citation
Environmental Research, v.178, pp 1 - 7
Pages
7
Indexed
SCI
SCIE
SCOPUS
Journal Title
Environmental Research
Volume
178
Start Page
1
End Page
7
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/12318
DOI
10.1016/j.envres.2019.108737
ISSN
0013-9351
1096-0953
Abstract
The adsorption dynamics of common solid sorbents against various pollutant species are yet poorly understood with respect to the retrograde phenomenon in which the relationship between breakthrough vs. pulled volume is characterized by an early unusual trend (initial increase followed by a decrease to a minimum) and by a normal trend of finally increasing to 100% (or equilibrium). If such trend is expressed in terms of the partition coefficient (PC), a reversed trend of adsorption processes becomes more evident. Retrograde has been previously observed in the initial breakthrough (<10%) isotherms in continuous flow gas-phase adsorption processes. However, retrograde has been neglected/overlooked and not discussed at all in the main stream literature even when it is explicitly observed from isotherm datasets. To properly describe the various aspects of such process, a stop-flow technique was developed to measure the adsorption isotherm of a model volatile organic compound (i.e., toluene in this study) onto a commercial low-cost sorbent (activated carbon: AC). Accordingly, a 10% breakthrough volume of 762 L atm g(-1) (corresponding adsorption capacity of 142 mg g(-1)) was determined (at an inlet stream 5 Pa of toluene in 1 atm of N-2 and 5 mg of AC). This automated method was effective to generate a detailed breakthrough profile at high stream-flow rates (or high space velocities) to specifically detect the retrograde phenomenon at the breakthrough onset. This study offers a practical approach towards establishing an in-depth monitoring protocol for the rare retrograde phenomenon.
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