Study of Water Vapour Adsorption on Sandwich-Type CuO/NaX Adsorbent–Catalysts

Experimental data show that the adsorbent–catalyst CuO/NaX is hydrophilic with a similar water vapour adsorption capacity and adsorption rate to zeolite NaX. Equilibrium parameters were best described by a Freundlich-like equation. BET studies and Kelvin equation calculations confirmed that, at an a...

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Main Authors:	Andrius Jaskunas, Marius Brazlauskas, Saulius Kitrys
Format:	Article
Language:	English
Published:	SAGE Publishing 2010-07-01
Series:	Adsorption Science & Technology
Online Access:	https://doi.org/10.1260/0263-6174.28.6.485
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author	Andrius Jaskunas Marius Brazlauskas Saulius Kitrys
author_facet	Andrius Jaskunas Marius Brazlauskas Saulius Kitrys
author_sort	Andrius Jaskunas
collection	DOAJ
description	Experimental data show that the adsorbent–catalyst CuO/NaX is hydrophilic with a similar water vapour adsorption capacity and adsorption rate to zeolite NaX. Equilibrium parameters were best described by a Freundlich-like equation. BET studies and Kelvin equation calculations confirmed that, at an ambient relative humidity of 37% or higher, water vapour condensation will occur in the prevailing 2.0–2.3 nm pores of the adsorbent–catalyst CuO/NaX. The kinetic parameters for the adsorption of water vapour are presented.
format	Article
id	doaj-art-9cce19ddad2e4ad88dd32d7b4c594c93
institution	DOAJ
issn	0263-6174 2048-4038
language	English
publishDate	2010-07-01
publisher	SAGE Publishing
record_format	Article
series	Adsorption Science & Technology
spelling	doaj-art-9cce19ddad2e4ad88dd32d7b4c594c932025-08-20T02:43:27ZengSAGE PublishingAdsorption Science & Technology0263-61742048-40382010-07-012810.1260/0263-6174.28.6.485Study of Water Vapour Adsorption on Sandwich-Type CuO/NaX Adsorbent–CatalystsAndrius JaskunasMarius BrazlauskasSaulius KitrysExperimental data show that the adsorbent–catalyst CuO/NaX is hydrophilic with a similar water vapour adsorption capacity and adsorption rate to zeolite NaX. Equilibrium parameters were best described by a Freundlich-like equation. BET studies and Kelvin equation calculations confirmed that, at an ambient relative humidity of 37% or higher, water vapour condensation will occur in the prevailing 2.0–2.3 nm pores of the adsorbent–catalyst CuO/NaX. The kinetic parameters for the adsorption of water vapour are presented.https://doi.org/10.1260/0263-6174.28.6.485
spellingShingle	Andrius Jaskunas Marius Brazlauskas Saulius Kitrys Study of Water Vapour Adsorption on Sandwich-Type CuO/NaX Adsorbent–Catalysts Adsorption Science & Technology
title	Study of Water Vapour Adsorption on Sandwich-Type CuO/NaX Adsorbent–Catalysts
title_full	Study of Water Vapour Adsorption on Sandwich-Type CuO/NaX Adsorbent–Catalysts
title_fullStr	Study of Water Vapour Adsorption on Sandwich-Type CuO/NaX Adsorbent–Catalysts
title_full_unstemmed	Study of Water Vapour Adsorption on Sandwich-Type CuO/NaX Adsorbent–Catalysts
title_short	Study of Water Vapour Adsorption on Sandwich-Type CuO/NaX Adsorbent–Catalysts
title_sort	study of water vapour adsorption on sandwich type cuo nax adsorbent catalysts
url	https://doi.org/10.1260/0263-6174.28.6.485
work_keys_str_mv	AT andriusjaskunas studyofwatervapouradsorptiononsandwichtypecuonaxadsorbentcatalysts AT mariusbrazlauskas studyofwatervapouradsorptiononsandwichtypecuonaxadsorbentcatalysts AT sauliuskitrys studyofwatervapouradsorptiononsandwichtypecuonaxadsorbentcatalysts

Study of Water Vapour Adsorption on Sandwich-Type CuO/NaX Adsorbent–Catalysts

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