Using Ion Exchange Process in Removal of Selected Organic Pollution from Aqueous Solutions

Surfactant and phenol was removed using AMBERLITE IRA 900 Cl ion-exchange resin, which is a strong alkali. In process tests carried out in non-flow conditions, the effect of contact time and ionite dose on surfactant and phenol exchange was determined. The tests in through-flow conditions were reali...

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Main Authors: Jadwiga Teresa Kaleta, Dorota Papciak, Alicja Puszkarewicz
Format: Article
Language:English
Published: Polish Society of Ecological Engineering (PTIE) 2018-07-01
Series:Journal of Ecological Engineering
Subjects:
Online Access:http://www.journalssystem.com/jeeng/Using-ion-exchange-process-in-removal-of-selected-organic-pollution-r-nfrom-aqueous,89662,0,2.html
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spelling doaj-d297fe7b7f7342b0ba8568e545f053282020-11-24T21:59:01ZengPolish Society of Ecological Engineering (PTIE)Journal of Ecological Engineering2299-89932018-07-0119413614210.12911/22998993/8966289662Using Ion Exchange Process in Removal of Selected Organic Pollution from Aqueous SolutionsJadwiga Teresa Kaleta0Dorota Papciak1Alicja Puszkarewicz2Rzeszów University of Technology, The Faculty of Civil and Environment Engineering and Architecture, Department of Water Purification and Protection, Rzeszów, PolandRzeszów University of Technology, The Faculty of Civil and Environment Engineering and Architecture, Department of Water Purification and Protection, Rzeszów, PolandRzeszów University of Technology, The Faculty of Civil and Environment Engineering and Architecture, Department of Water Purification and Protection, Rzeszów, PolandSurfactant and phenol was removed using AMBERLITE IRA 900 Cl ion-exchange resin, which is a strong alkali. In process tests carried out in non-flow conditions, the effect of contact time and ionite dose on surfactant and phenol exchange was determined. The tests in through-flow conditions were realized in three consecutive cycles, preceded by regeneration and rinsing. Obtained results served for determination of ion-exchange capabilities of the studied ionite. The usable ion-exchange capabilities of the resin obtained after the second and third ionite operation cycle were lower by about 10% (surfactant) and 14,29 – 17,86 % (phenol) than those after the first cycle. It shows that, simultaneously with ion-exchange process, a process of sorption occurred as well.http://www.journalssystem.com/jeeng/Using-ion-exchange-process-in-removal-of-selected-organic-pollution-r-nfrom-aqueous,89662,0,2.htmldetergentphenolion-exchange
collection DOAJ
language English
format Article
sources DOAJ
author Jadwiga Teresa Kaleta
Dorota Papciak
Alicja Puszkarewicz
spellingShingle Jadwiga Teresa Kaleta
Dorota Papciak
Alicja Puszkarewicz
Using Ion Exchange Process in Removal of Selected Organic Pollution from Aqueous Solutions
Journal of Ecological Engineering
detergent
phenol
ion-exchange
author_facet Jadwiga Teresa Kaleta
Dorota Papciak
Alicja Puszkarewicz
author_sort Jadwiga Teresa Kaleta
title Using Ion Exchange Process in Removal of Selected Organic Pollution from Aqueous Solutions
title_short Using Ion Exchange Process in Removal of Selected Organic Pollution from Aqueous Solutions
title_full Using Ion Exchange Process in Removal of Selected Organic Pollution from Aqueous Solutions
title_fullStr Using Ion Exchange Process in Removal of Selected Organic Pollution from Aqueous Solutions
title_full_unstemmed Using Ion Exchange Process in Removal of Selected Organic Pollution from Aqueous Solutions
title_sort using ion exchange process in removal of selected organic pollution from aqueous solutions
publisher Polish Society of Ecological Engineering (PTIE)
series Journal of Ecological Engineering
issn 2299-8993
publishDate 2018-07-01
description Surfactant and phenol was removed using AMBERLITE IRA 900 Cl ion-exchange resin, which is a strong alkali. In process tests carried out in non-flow conditions, the effect of contact time and ionite dose on surfactant and phenol exchange was determined. The tests in through-flow conditions were realized in three consecutive cycles, preceded by regeneration and rinsing. Obtained results served for determination of ion-exchange capabilities of the studied ionite. The usable ion-exchange capabilities of the resin obtained after the second and third ionite operation cycle were lower by about 10% (surfactant) and 14,29 – 17,86 % (phenol) than those after the first cycle. It shows that, simultaneously with ion-exchange process, a process of sorption occurred as well.
topic detergent
phenol
ion-exchange
url http://www.journalssystem.com/jeeng/Using-ion-exchange-process-in-removal-of-selected-organic-pollution-r-nfrom-aqueous,89662,0,2.html
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