Adsorption Hysteresis in Open Slit-like Micropores

Adsorption Hysteresis in Open Slit-like Micropores

Adsorption hysteresis in the low-pressure range is only rarely described in the literature. To optimise, for example, heat storage technologies, a deeper understanding of the low-pressure hysteresis (LPH) process is necessary. Here, two thermodynamically based approaches are further developed for an...

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Main Authors: Grygorii Dragan, Volodymyr Kutarov, Eva Schieferstein, Alexander Iorgov
Format: Article
Language:English
Published: MDPI AG 2021-08-01
Series:Molecules
Subjects:
adsorption
desorption
hysteresis
modelling
fractal dimension
degree of irreversibility
Online Access:https://www.mdpi.com/1420-3049/26/16/5074
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spelling doaj-6306874694e64128a7603d5c044d99122021-08-26T14:08:18ZengMDPI AGMolecules1420-30492021-08-01265074507410.3390/molecules26165074Adsorption Hysteresis in Open Slit-like MicroporesGrygorii Dragan0Volodymyr Kutarov1Eva Schieferstein2Alexander Iorgov3Physics Research Institute, Odesa I.I. Mechnikov National University, 27 Pasteur St., 65082 Odesa, UkrainePhysics Research Institute, Odesa I.I. Mechnikov National University, 27 Pasteur St., 65082 Odesa, UkraineFraunhofer UMSICHT, 3 Osterfelder Str., D-46047 Oberhausen, GermanyPhysics Research Institute, Odesa I.I. Mechnikov National University, 27 Pasteur St., 65082 Odesa, UkraineAdsorption hysteresis in the low-pressure range is only rarely described in the literature. To optimise, for example, heat storage technologies, a deeper understanding of the low-pressure hysteresis (LPH) process is necessary. Here, two thermodynamically based approaches are further developed for analysing the LPH within the framework of thermodynamically irreversible processes and fractal geometry. With both methods developed, it is possible to obtain the description of the adsorption and desorption branches with high accuracy. Within the framework of the two thermodynamic models of the hysteresis loop, generalised equations are obtained with the control parameter in the form of the degree of irreversibility. This is done by taking the adsorption of water on alumina as an example. It is shown that the fractal dimension of the adsorption process is larger than the fractal dimension of the desorption branch, meaning that the phase state of the adsorbate is more symmetric during the adsorption step than in the desorption process.https://www.mdpi.com/1420-3049/26/16/5074adsorptiondesorptionhysteresismodellingfractal dimensiondegree of irreversibility
collection DOAJ
language English
format Article
sources DOAJ
author Grygorii Dragan
Volodymyr Kutarov
Eva Schieferstein
Alexander Iorgov
spellingShingle Grygorii Dragan
Volodymyr Kutarov
Eva Schieferstein
Alexander Iorgov
Adsorption Hysteresis in Open Slit-like Micropores
Molecules
adsorption
desorption
hysteresis
modelling
fractal dimension
degree of irreversibility
author_facet Grygorii Dragan
Volodymyr Kutarov
Eva Schieferstein
Alexander Iorgov
author_sort Grygorii Dragan
title Adsorption Hysteresis in Open Slit-like Micropores
title_short Adsorption Hysteresis in Open Slit-like Micropores
title_full Adsorption Hysteresis in Open Slit-like Micropores
title_fullStr Adsorption Hysteresis in Open Slit-like Micropores
title_full_unstemmed Adsorption Hysteresis in Open Slit-like Micropores
title_sort adsorption hysteresis in open slit-like micropores
publisher MDPI AG
series Molecules
issn 1420-3049
publishDate 2021-08-01
description Adsorption hysteresis in the low-pressure range is only rarely described in the literature. To optimise, for example, heat storage technologies, a deeper understanding of the low-pressure hysteresis (LPH) process is necessary. Here, two thermodynamically based approaches are further developed for analysing the LPH within the framework of thermodynamically irreversible processes and fractal geometry. With both methods developed, it is possible to obtain the description of the adsorption and desorption branches with high accuracy. Within the framework of the two thermodynamic models of the hysteresis loop, generalised equations are obtained with the control parameter in the form of the degree of irreversibility. This is done by taking the adsorption of water on alumina as an example. It is shown that the fractal dimension of the adsorption process is larger than the fractal dimension of the desorption branch, meaning that the phase state of the adsorbate is more symmetric during the adsorption step than in the desorption process.
topic adsorption
desorption
hysteresis
modelling
fractal dimension
degree of irreversibility
url https://www.mdpi.com/1420-3049/26/16/5074
work_keys_str_mv AT grygoriidragan adsorptionhysteresisinopenslitlikemicropores
AT volodymyrkutarov adsorptionhysteresisinopenslitlikemicropores
AT evaschieferstein adsorptionhysteresisinopenslitlikemicropores
AT alexanderiorgov adsorptionhysteresisinopenslitlikemicropores
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