Sorption and desorption of zinc by clinoptilolite and cinoptilolite-tridymite

Industrial wastes and mining related activity are main sources of zinc contamination in soils and groundwater. The quality of soil, crop and water will also be affected by high concentrations of heavy metals. The adsorption behaviour of clinoptilolite (natural Iranian zeolite) and clinoptilolite-tri...

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Main Authors: Babak, Khayambashi, Abdul Rahim, Anuar, Abd. Wahid, Samsuri, Balasundram, Siva Kumar, Afyuni, Majid
Format: Article
Language:English
Published: Malaysian Society of Soil Science 2013
Online Access:http://psasir.upm.edu.my/id/eprint/29408/1/Sorption%20and%20desorption%20of%20zinc%20by%20clinoptilolite%20and%20cinoptilolite-tridymite.pdf
http://psasir.upm.edu.my/id/eprint/29408/
http://www.msss.com.my/mjss/abs17.html
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Institution: Universiti Putra Malaysia
Language: English
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spelling my.upm.eprints.294082016-07-13T01:48:34Z http://psasir.upm.edu.my/id/eprint/29408/ Sorption and desorption of zinc by clinoptilolite and cinoptilolite-tridymite Babak, Khayambashi Abdul Rahim, Anuar Abd. Wahid, Samsuri Balasundram, Siva Kumar Afyuni, Majid Industrial wastes and mining related activity are main sources of zinc contamination in soils and groundwater. The quality of soil, crop and water will also be affected by high concentrations of heavy metals. The adsorption behaviour of clinoptilolite (natural Iranian zeolite) and clinoptilolite-tridymite (Chinese zeolite) at different pHs has been studied in order to find out its applicability in agriculture as soil amendment. To elucidate zinc adsorption, batch experiment at constant pH was used. The mineralogical composition, specific surface area and CEC, were investigated by X-ray diffraction (XRD), BET-N2 sorption analysis and Na-acetate method, respectively. The data indicate that Iranian and Chinese zeolites contained 93.21 %, 58.83 % Clinoptilolite-Na, respectively, but high amount of tridymite (28.04 %) was also present in the Chinese zeolite. The Zn sorption isotherm data for both Iranian zeolite and Chinese zeolite were fitted to the Langmuir and Freundlich models. The sorption results at different pH showed that sorption at constant pH=5 and 7 can best be fitted to the Langmuir equation. It was found that qmax of Iranian zeolite was higher than Chinese zeolite at both pHs. According to the findings, the binding strength of Zn adsorption in Chinese Zeolite was 0.01, 0.03 (L mg-1) at pH 5 and pH 7 whereas KL for the Iranian zeolite was 0.02 (L mg-1) at both pHs. It is revealed that the affinity of Chinese zeolite for zinc adsorption was higher at pH=7. The results indicate that the zinc desorption percent at highest loading rates for Iranian zeolite were 36.1%, 41.5%, while for Chinese zeolite were 45.81%, 36.3% at pH value 5 and 7, respectively. Malaysian Society of Soil Science 2013 Article PeerReviewed application/pdf en http://psasir.upm.edu.my/id/eprint/29408/1/Sorption%20and%20desorption%20of%20zinc%20by%20clinoptilolite%20and%20cinoptilolite-tridymite.pdf Babak, Khayambashi and Abdul Rahim, Anuar and Abd. Wahid, Samsuri and Balasundram, Siva Kumar and Afyuni, Majid (2013) Sorption and desorption of zinc by clinoptilolite and cinoptilolite-tridymite. Malaysian Journal of Soil Science, 17. pp. 69-83. ISSN 1394-7990 http://www.msss.com.my/mjss/abs17.html
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
language English
description Industrial wastes and mining related activity are main sources of zinc contamination in soils and groundwater. The quality of soil, crop and water will also be affected by high concentrations of heavy metals. The adsorption behaviour of clinoptilolite (natural Iranian zeolite) and clinoptilolite-tridymite (Chinese zeolite) at different pHs has been studied in order to find out its applicability in agriculture as soil amendment. To elucidate zinc adsorption, batch experiment at constant pH was used. The mineralogical composition, specific surface area and CEC, were investigated by X-ray diffraction (XRD), BET-N2 sorption analysis and Na-acetate method, respectively. The data indicate that Iranian and Chinese zeolites contained 93.21 %, 58.83 % Clinoptilolite-Na, respectively, but high amount of tridymite (28.04 %) was also present in the Chinese zeolite. The Zn sorption isotherm data for both Iranian zeolite and Chinese zeolite were fitted to the Langmuir and Freundlich models. The sorption results at different pH showed that sorption at constant pH=5 and 7 can best be fitted to the Langmuir equation. It was found that qmax of Iranian zeolite was higher than Chinese zeolite at both pHs. According to the findings, the binding strength of Zn adsorption in Chinese Zeolite was 0.01, 0.03 (L mg-1) at pH 5 and pH 7 whereas KL for the Iranian zeolite was 0.02 (L mg-1) at both pHs. It is revealed that the affinity of Chinese zeolite for zinc adsorption was higher at pH=7. The results indicate that the zinc desorption percent at highest loading rates for Iranian zeolite were 36.1%, 41.5%, while for Chinese zeolite were 45.81%, 36.3% at pH value 5 and 7, respectively.
format Article
author Babak, Khayambashi
Abdul Rahim, Anuar
Abd. Wahid, Samsuri
Balasundram, Siva Kumar
Afyuni, Majid
spellingShingle Babak, Khayambashi
Abdul Rahim, Anuar
Abd. Wahid, Samsuri
Balasundram, Siva Kumar
Afyuni, Majid
Sorption and desorption of zinc by clinoptilolite and cinoptilolite-tridymite
author_facet Babak, Khayambashi
Abdul Rahim, Anuar
Abd. Wahid, Samsuri
Balasundram, Siva Kumar
Afyuni, Majid
author_sort Babak, Khayambashi
title Sorption and desorption of zinc by clinoptilolite and cinoptilolite-tridymite
title_short Sorption and desorption of zinc by clinoptilolite and cinoptilolite-tridymite
title_full Sorption and desorption of zinc by clinoptilolite and cinoptilolite-tridymite
title_fullStr Sorption and desorption of zinc by clinoptilolite and cinoptilolite-tridymite
title_full_unstemmed Sorption and desorption of zinc by clinoptilolite and cinoptilolite-tridymite
title_sort sorption and desorption of zinc by clinoptilolite and cinoptilolite-tridymite
publisher Malaysian Society of Soil Science
publishDate 2013
url http://psasir.upm.edu.my/id/eprint/29408/1/Sorption%20and%20desorption%20of%20zinc%20by%20clinoptilolite%20and%20cinoptilolite-tridymite.pdf
http://psasir.upm.edu.my/id/eprint/29408/
http://www.msss.com.my/mjss/abs17.html
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