The influence of the flow pattern of the contaminated air on the adsorption behaviour of an activated carbon filter

The influence of the flow pattern of the contaminated air on the adsorption behaviour of an activated carbon filter

For many years, there has been debate, both in the scientific and user communities, on the influence of the flow pattern on the adsorption behaviour of a filter filled with activated carbon. Some authors reported significant differences in the breakthrough times of gases and vapours, whereas others...

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Bibliographic Details
Published in:Adsorption : journal of the International Adsorption Society Vol. 25; no. 4; pp. 757 - 763
Main Authors: Windey, Brecht, Van Riet, Romuald, Boutillara, Yasmine, Lodewyckx, Peter
Format: Journal Article
Language:English
Published: New York Springer US 15-05-2019
Springer Nature B.V
Subjects:
Activated carbon
Adsorption
Air flow
Chemistry
Chemistry and Materials Science
Engineering Thermodynamics
Heat and Mass Transfer
Industrial Chemistry/Chemical Engineering
Mass transfer
Surfaces and Interfaces
Thin Films
Model
Organic vapour
Flow pattern
Activated carbon
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Summary:For many years, there has been debate, both in the scientific and user communities, on the influence of the flow pattern on the adsorption behaviour of a filter filled with activated carbon. Some authors reported significant differences in the breakthrough times of gases and vapours, whereas others did not. Some laboratories are switching to testing with a pulse flow, but this is not without problems. Hence, the goal of this work is twofold: to understand the influence of a real flow pattern on the breakthrough time for organic vapours of a gas mask filter and to ascertain if this influence can be modelled. The work demonstrates that the difference in breakthrough time is due to the influence of the flow pattern on the width of the mass transfer zone, via its impact on adsorption kinetics. Within the validity domain of the Wheeler-Jonas equation, this effect can be easily and accurately modelled, giving excellent estimates of the experimental breakthrough times. There are still some issues with using this model in the presence of ambient water vapour, as the water uptake from a pulsed air flow cannot be estimated correctly yet.
ISSN:0929-5607
1572-8757
DOI:10.1007/s10450-019-00094-6