Removal of As (V) from the aqueous solution by a modified granular ferric hydroxide adsorbent

A novel adsorbent was prepared in granular form from iron (III) hydroxide and other additives to remove arsenate (As (V)) from aqueous solution. Adsorption of As (V) onto the adsorbent in batch experiments was analyzed to understand the adsorption mechanism, affecting factors, and adsorption isother...

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Published inThe Science of the total environment Vol. 706; p. 135947
Main Authors Pham, Thi Thuy, Ngo, Huu Hao, Tran, Van Son, Nguyen, Manh Khai
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.03.2020
Subjects
Affecting factors
Arsenate
Characterization
Iron hydroxide-based adsorbent
Mechanism
Characterization
Iron hydroxide-based adsorbent
Arsenate
Affecting factors
Mechanism
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Abstract A novel adsorbent was prepared in granular form from iron (III) hydroxide and other additives to remove arsenate (As (V)) from aqueous solution. Adsorption of As (V) onto the adsorbent in batch experiments was analyzed to understand the adsorption mechanism, affecting factors, and adsorption isotherms. The optimal working conditions for the developed adsorbent were at pH 3, 30 °C and 50 g/L. The adsorption of arsenate onto the adsorbent occurred rapidly in the first 10 min and reached equilibrium in 2 h. The Langmuir isotherm was found to be best fitted the adsorption. The pre- and post-adsorption adsorbents were characterized by SEM, BET, FTIR, XRD, and Zeta potential techniques. Experimental results clearly demonstrated the potential impact of elemental composition, crystallinity, surface morphology, and other physico-chemical properties of the adsorbent on the adsorption performance variety. The experimental results with the pilot scale treatment system revealed that the adsorbent can be applied successfully and lead to a very efficient drinking water treatment system, at a competitive cost compared to the water market in Hanoi, Vietnam. [Display omitted] •Novel granular adsorbents were prepared from iron ore for As (V) removal.•The adsorbent was characterized in detail (morphology, chemical characteristics).•The influences are pH, initial concentration, contact time, dose and temperature.•As (V) removal mechanism by granular ferric hydroxide adsorbent was proposed.•The adsorbent can be applied for drinking water treatment at large scale.
AbstractList A novel adsorbent was prepared in granular form from iron (III) hydroxide and other additives to remove arsenate (As (V)) from aqueous solution. Adsorption of As (V) onto the adsorbent in batch experiments was analyzed to understand the adsorption mechanism, affecting factors, and adsorption isotherms. The optimal working conditions for the developed adsorbent were at pH 3, 30 °C and 50 g/L. The adsorption of arsenate onto the adsorbent occurred rapidly in the first 10 min and reached equilibrium in 2 h. The Langmuir isotherm was found to be best fitted the adsorption. The pre- and post-adsorption adsorbents were characterized by SEM, BET, FTIR, XRD, and Zeta potential techniques. Experimental results clearly demonstrated the potential impact of elemental composition, crystallinity, surface morphology, and other physico-chemical properties of the adsorbent on the adsorption performance variety. The experimental results with the pilot scale treatment system revealed that the adsorbent can be applied successfully and lead to a very efficient drinking water treatment system, at a competitive cost compared to the water market in Hanoi, Vietnam. [Display omitted] •Novel granular adsorbents were prepared from iron ore for As (V) removal.•The adsorbent was characterized in detail (morphology, chemical characteristics).•The influences are pH, initial concentration, contact time, dose and temperature.•As (V) removal mechanism by granular ferric hydroxide adsorbent was proposed.•The adsorbent can be applied for drinking water treatment at large scale.
A novel adsorbent was prepared in granular form from iron (III) hydroxide and other additives to remove arsenate (As (V)) from aqueous solution. Adsorption of As (V) onto the adsorbent in batch experiments was analyzed to understand the adsorption mechanism, affecting factors, and adsorption isotherms. The optimal working conditions for the developed adsorbent were at pH 3, 30 °C and 50 g/L. The adsorption of arsenate onto the adsorbent occurred rapidly in the first 10 min and reached equilibrium in 2 h. The Langmuir isotherm was found to be best fitted the adsorption. The pre- and post-adsorption adsorbents were characterized by SEM, BET, FTIR, XRD, and Zeta potential techniques. Experimental results clearly demonstrated the potential impact of elemental composition, crystallinity, surface morphology, and other physico-chemical properties of the adsorbent on the adsorption performance variety. The experimental results with the pilot scale treatment system revealed that the adsorbent can be applied successfully and lead to a very efficient drinking water treatment system, at a competitive cost compared to the water market in Hanoi, Vietnam.
ArticleNumber 135947
Author Ngo, Huu Hao
Nguyen, Manh Khai
Pham, Thi Thuy
Tran, Van Son
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Keywords Characterization
Iron hydroxide-based adsorbent
Arsenate
Affecting factors
Mechanism
Language English
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Snippet A novel adsorbent was prepared in granular form from iron (III) hydroxide and other additives to remove arsenate (As (V)) from aqueous solution. Adsorption of...
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SubjectTerms Affecting factors
Arsenate
Characterization
Iron hydroxide-based adsorbent
Mechanism
Title Removal of As (V) from the aqueous solution by a modified granular ferric hydroxide adsorbent
URI https://dx.doi.org/10.1016/j.scitotenv.2019.135947
https://www.ncbi.nlm.nih.gov/pubmed/31846881
https://search.proquest.com/docview/2328351857
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