High concentration arsenic removal from aqueous solution using nano-iron ion enrich material (NIIEM) super adsorbent

High concentration arsenic removal from aqueous solution using nano-iron ion enrich material (NIIEM) super adsorbent

[Display omitted] •Introduce NIIEM as a novel and cost-effective commercial super-adsorbent.•The crystalline agglomerated nanoparticles forms amorphous clusters after adsorption.•Equilibrium data shown best fits Langmuir-Freundlich and Freundlich isotherm models.•Higher adsorption capacity for As(II...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Vol. 317; pp. 343 - 355
Main Authors: Asmel, Nabel Kalel, Yusoff, Abdull Rahim Mohd, Sivarama Krishna, Lakkaboyana, Majid, Zaiton Abdul, Salmiati, Salmiati
Format: Journal Article
Language:English
Published: Elsevier B.V 01-06-2017
Subjects:
Aqueous solution
Arsenic removal
Ecomel
Isotherm
Kinetic
Isotherm
Arsenic removal
Aqueous solution
Kinetic
Ecomel
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Summary:[Display omitted] •Introduce NIIEM as a novel and cost-effective commercial super-adsorbent.•The crystalline agglomerated nanoparticles forms amorphous clusters after adsorption.•Equilibrium data shown best fits Langmuir-Freundlich and Freundlich isotherm models.•Higher adsorption capacity for As(III) than As(V) at 705 and 123mg/g, respectively.•At low pH, both As are efficiently removed but at high pH, As(III) is well removed. Nano iron ion enrich materials (NIIEM) is a new commercial adsorbent employed to remove inorganic arsenic (As) toxicant from aqueous solutions. In this study, BET, SEM, EDX, XRF, XRD and TG-DTG were used to characterize this commercial adsorbent before and after contact with As(III)/As(V). NIIEM is composed mostly of core shell Fe0 structure with an outer oxide and hydroxide shell. The SEM analysis of NIIEM after arsenic adsorption was characterized by the formation of agglomerates into larger particles (clusters). The XRD results revealed that NIIEM (Fe0) were transformed to Ferrihydrite (Fe5O7(OH)·4H2O) corrosion products at high concentration of As(III)/As(V) under acidic conditions. The batch experiments conducted to describe the adsorption affinity of NIIEM depicted that its adsorption kinetics adopted a pseudo-second-order model with high affinity for both As(III) and As(V) at initial pH 2.5. Maximum adsorption capacity determined at initial pH 2.5 from the Langmuir-Freundlich isotherm model was found to be 704.7 and 122.7mg/g for As(III) and As(V), respectively. These results indicate that NIIEM has high adsorbent efficiency and it is very suitable for in-situ and ex-situ remediation of highly concentrated As(III) and As(V) toxicants in aqueous solutions.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2017.02.039