Preparation of a Hybrid Zirconium Phytate and Its Application for the Removal of Fluorine in Metal-Precoating Effluent

Preparation of a Hybrid Zirconium Phytate and Its Application for the Removal of Fluorine in Metal-Precoating Effluent

A hybrid zirconium phytate (ZrxIP6) with porous surface was synthesized via the direct precipitation method. The as-prepared ZrxIP6 was characterized by SEM, EDS, FT-IR. The sample obtained from P/Zr = 3:1(mol/mol) indicated that a hybrid material might be formed through coordination of the zirconiu...

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Main Authors: Cheng Wenkai, Wang Dazhi, Qu Fengzuo, Zhang Shaoyin
Format: Article
Language:English
Published: EDP Sciences 2016-01-01
Series:MATEC Web of Conferences
Subjects:
zirconium phytate
metal-precoating wastewater
hybrid material
adsorption
Online Access:http://dx.doi.org/10.1051/matecconf/20166706039
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spelling doaj-1f5e652a3eac49b584ca44bac8fab5ef2021-02-02T08:05:41ZengEDP SciencesMATEC Web of Conferences2261-236X2016-01-01670603910.1051/matecconf/20166706039matecconf_smae2016_06039Preparation of a Hybrid Zirconium Phytate and Its Application for the Removal of Fluorine in Metal-Precoating EffluentCheng WenkaiWang DazhiQu FengzuoZhang ShaoyinA hybrid zirconium phytate (ZrxIP6) with porous surface was synthesized via the direct precipitation method. The as-prepared ZrxIP6 was characterized by SEM, EDS, FT-IR. The sample obtained from P/Zr = 3:1(mol/mol) indicated that a hybrid material might be formed through coordination of the zirconium ions with the –COPO3 groups in phytic acid molecules. An attempt to employ the hybrid ZrxIP6 as a sorbent in the removal of fluoride ions in metal-precoating wastewater was performed. The adsorption capacity qe and the residual F- ions concentration Ce using the ZrxIP6 (P/Zr = 3:1) as an adsorbent, were 1.21 mg.g-1 and 1.47 mg.L-1, respectively.http://dx.doi.org/10.1051/matecconf/20166706039zirconium phytatemetal-precoating wastewaterhybrid materialadsorption
collection DOAJ
language English
format Article
sources DOAJ
author Cheng Wenkai
Wang Dazhi
Qu Fengzuo
Zhang Shaoyin
spellingShingle Cheng Wenkai
Wang Dazhi
Qu Fengzuo
Zhang Shaoyin
Preparation of a Hybrid Zirconium Phytate and Its Application for the Removal of Fluorine in Metal-Precoating Effluent
MATEC Web of Conferences
zirconium phytate
metal-precoating wastewater
hybrid material
adsorption
author_facet Cheng Wenkai
Wang Dazhi
Qu Fengzuo
Zhang Shaoyin
author_sort Cheng Wenkai
title Preparation of a Hybrid Zirconium Phytate and Its Application for the Removal of Fluorine in Metal-Precoating Effluent
title_short Preparation of a Hybrid Zirconium Phytate and Its Application for the Removal of Fluorine in Metal-Precoating Effluent
title_full Preparation of a Hybrid Zirconium Phytate and Its Application for the Removal of Fluorine in Metal-Precoating Effluent
title_fullStr Preparation of a Hybrid Zirconium Phytate and Its Application for the Removal of Fluorine in Metal-Precoating Effluent
title_full_unstemmed Preparation of a Hybrid Zirconium Phytate and Its Application for the Removal of Fluorine in Metal-Precoating Effluent
title_sort preparation of a hybrid zirconium phytate and its application for the removal of fluorine in metal-precoating effluent
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2016-01-01
description A hybrid zirconium phytate (ZrxIP6) with porous surface was synthesized via the direct precipitation method. The as-prepared ZrxIP6 was characterized by SEM, EDS, FT-IR. The sample obtained from P/Zr = 3:1(mol/mol) indicated that a hybrid material might be formed through coordination of the zirconium ions with the –COPO3 groups in phytic acid molecules. An attempt to employ the hybrid ZrxIP6 as a sorbent in the removal of fluoride ions in metal-precoating wastewater was performed. The adsorption capacity qe and the residual F- ions concentration Ce using the ZrxIP6 (P/Zr = 3:1) as an adsorbent, were 1.21 mg.g-1 and 1.47 mg.L-1, respectively.
topic zirconium phytate
metal-precoating wastewater
hybrid material
adsorption
url http://dx.doi.org/10.1051/matecconf/20166706039
work_keys_str_mv AT chengwenkai preparationofahybridzirconiumphytateanditsapplicationfortheremovaloffluorineinmetalprecoatingeffluent
AT wangdazhi preparationofahybridzirconiumphytateanditsapplicationfortheremovaloffluorineinmetalprecoatingeffluent
AT qufengzuo preparationofahybridzirconiumphytateanditsapplicationfortheremovaloffluorineinmetalprecoatingeffluent
AT zhangshaoyin preparationofahybridzirconiumphytateanditsapplicationfortheremovaloffluorineinmetalprecoatingeffluent
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