Formation of tooeleite and the role of direct removal of As(III) from high-arsenic acid wastewater

[Display omitted] ⿢A novel method for direct removal of As(III) by forming tooeleite is developed.⿢Arsenic removal efficiency can reach 99% for high As(III) concentration of 7.5g/L.⿢Ferrihydrite contributes to the formation of tooeleite and the removal of As(III). In this study, an earth-mimetic met...

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Published inJournal of hazardous materials Vol. 320; pp. 620 - 627
Main Authors Chai, Liyuan, Yue, Mengqing, Yang, Jinqin, Wang, Qingwei, Li, Qingzhu, Liu, Hui
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 15.12.2016
Subjects
Acid wastewater
Arsenite
Efficiency
Ferrihydrite
Formations
Hazardous wastes
Precipitates
Precipitation
Precursors
Stability
Tooeleite
Wastewater treatment
Ferrihydrite
Acid wastewater
Tooeleite
Arsenite
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Abstract [Display omitted] ⿢A novel method for direct removal of As(III) by forming tooeleite is developed.⿢Arsenic removal efficiency can reach 99% for high As(III) concentration of 7.5g/L.⿢Ferrihydrite contributes to the formation of tooeleite and the removal of As(III). In this study, an earth-mimetic method was proposed for the direct removal of As(III) by the formation of tooeleite, a ferric arsenite sulfate mineral. A series of batch experiments was used to study the relationship between the formation of tooeleite and the removal of As(III). The results indicate that As(III) removal efficiency reached up to 99% under the treatment condition of pH 1.8⿿4.5, initial As(III) concentration higher than 0.75g/L, and Fe/As ranged from 0.8 to 2 at room temperature. Various characterizations confirm that the precipitate obtained by this treatment was tooeleite with relatively high stability. In addition, it is assumed that ferrihydrite exists as a precursor, which is vital to the formation of tooeleite and the removal of As(III). This study suggests that tooeleite formation may be an alternative method in the direct removal of As(III) from high-arsenic acid wastewater.
AbstractList In this study, an earth-mimetic method was proposed for the direct removal of As(III) by the formation of tooeleite, a ferric arsenite sulfate mineral. A series of batch experiments was used to study the relationship between the formation of tooeleite and the removal of As(III). The results indicate that As(III) removal efficiency reached up to 99% under the treatment condition of pH 1.8-4.5, initial As(III) concentration higher than 0.75g/L, and Fe/As ranged from 0.8 to 2 at room temperature. Various characterizations confirm that the precipitate obtained by this treatment was tooeleite with relatively high stability. In addition, it is assumed that ferrihydrite exists as a precursor, which is vital to the formation of tooeleite and the removal of As(III). This study suggests that tooeleite formation may be an alternative method in the direct removal of As(III) from high-arsenic acid wastewater.
[Display omitted] ⿢A novel method for direct removal of As(III) by forming tooeleite is developed.⿢Arsenic removal efficiency can reach 99% for high As(III) concentration of 7.5g/L.⿢Ferrihydrite contributes to the formation of tooeleite and the removal of As(III). In this study, an earth-mimetic method was proposed for the direct removal of As(III) by the formation of tooeleite, a ferric arsenite sulfate mineral. A series of batch experiments was used to study the relationship between the formation of tooeleite and the removal of As(III). The results indicate that As(III) removal efficiency reached up to 99% under the treatment condition of pH 1.8⿿4.5, initial As(III) concentration higher than 0.75g/L, and Fe/As ranged from 0.8 to 2 at room temperature. Various characterizations confirm that the precipitate obtained by this treatment was tooeleite with relatively high stability. In addition, it is assumed that ferrihydrite exists as a precursor, which is vital to the formation of tooeleite and the removal of As(III). This study suggests that tooeleite formation may be an alternative method in the direct removal of As(III) from high-arsenic acid wastewater.
Author Yang, Jinqin
Liu, Hui
Yue, Mengqing
Li, Qingzhu
Wang, Qingwei
Chai, Liyuan
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  givenname: Hui
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  organization: School of Metallurgy and Environment, Central South University, Changsha 410083, China
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Keywords Ferrihydrite
Acid wastewater
Tooeleite
Arsenite
Language English
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Snippet [Display omitted] ⿢A novel method for direct removal of As(III) by forming tooeleite is developed.⿢Arsenic removal efficiency can reach 99% for high As(III)...
In this study, an earth-mimetic method was proposed for the direct removal of As(III) by the formation of tooeleite, a ferric arsenite sulfate mineral. A...
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StartPage 620
SubjectTerms Acid wastewater
Arsenite
Efficiency
Ferrihydrite
Formations
Hazardous wastes
Precipitates
Precipitation
Precursors
Stability
Tooeleite
Wastewater treatment
Title Formation of tooeleite and the role of direct removal of As(III) from high-arsenic acid wastewater
URI https://dx.doi.org/10.1016/j.jhazmat.2016.07.069
https://www.ncbi.nlm.nih.gov/pubmed/27528124
https://search.proquest.com/docview/1827915799
https://search.proquest.com/docview/1835383662
https://search.proquest.com/docview/1845825953
Volume 320
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