A new magnetic bio-sorbent for arsenate removal from the contaminated water: Characterization, isotherms, and kinetics

A new magnetic bio-sorbent for arsenate removal from the contaminated water: Characterization, isotherms, and kinetics

Background: Arsenic (AS) is a heavy metal pollutant in water that has been known as one of the most important environmental contaminants due to its serious effects on both human health and the environment. This study was conducted to investigate the efficiency of calcined Co/Fe/Al L...

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Main Authors: Laleh Adlnasab, Nader Djafarzadeh, Akram Maghsodi
Format: Article
Language:English
Published: Kerman University of Medical Sciences 2020-04-01
Series:Environmental Health Engineering and Management
Subjects:
water pollution
phenylalanine
ferrosoferric oxide
arsenic
Online Access:http://ehemj.com/article-1-574-en.pdf
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spelling doaj-d6ab93d32ae34eb8bf902188089758e92020-11-25T02:25:17ZengKerman University of Medical SciencesEnvironmental Health Engineering and Management2423-37652423-43112020-04-0171495810.34172/EHEM.2020.07A new magnetic bio-sorbent for arsenate removal from the contaminated water: Characterization, isotherms, and kineticsLaleh Adlnasab0Nader Djafarzadeh1Akram Maghsodi2Department of Chemistry, Chemistry and Petrochemistry Research Center, Standard Research Institute, Karaj, IranDepartment of Chemistry, School of Science, Islamic Azad University, Miyaneh Branch, Miyaneh, IranDepartment of Chemistry, Chemistry and Petrochemistry Research Center, Standard Research Institute, Karaj, IranBackground: Arsenic (AS) is a heavy metal pollutant in water that has been known as one of the most important environmental contaminants due to its serious effects on both human health and the environment. This study was conducted to investigate the efficiency of calcined Co/Fe/Al LDH@Fe3O4@PA as a new magnetic bio-sorbent for AS removal from the polluted water.Methods:At first, magnetic ternary calcined layered double hydroxide (Co/Fe/Al LDH) was synthesized through co-precipitation procedure. The synthesized CLDH was modified with phenylalanine amino acid, named CLDH@Fe3O4@PA. Infrared spectroscopy, X-ray diffraction, transmission, and field emission scanning electron microscopy (FESEM) were used to confirm the synthesis of the sorbent. The removal time, pH, and the sorbent dose were studied and optimized as the effective parameters on the As (V) removal. Results:The XRD, FTIR, TEM, SEM, EDS, and VSM techniques confirmed the properties of the synthesized magnetic bio-sorbent. Based on the optimization study, pH=6, the sorbent concentration of 30 mg, and the removal time of 5 minutes were considered as the optimum conditions with about 91% AS removal. The Langmuir isotherm with higher R2 value was matched well with the obtained results, and values obtained for qm and RL were 167 mg g–1 and 0.976 to 0.993, respectively. The kinetics studies were fitted well with the linear pseudo-first-order model with higher R2 at sorption process.Conclusion: The real samples results confirmed the excellent As (V) sorption capacity of the synthesized magnetic bio-sorbent in comparison with other sorbents. Therefore, CLDH@Fe3O4@PA sorbent is introduced as a new suitable sorbent for removal of As (V) from the polluted water.http://ehemj.com/article-1-574-en.pdfwater pollutionphenylalanineferrosoferric oxidearsenic
collection DOAJ
language English
format Article
sources DOAJ
author Laleh Adlnasab
Nader Djafarzadeh
Akram Maghsodi
spellingShingle Laleh Adlnasab
Nader Djafarzadeh
Akram Maghsodi
A new magnetic bio-sorbent for arsenate removal from the contaminated water: Characterization, isotherms, and kinetics
Environmental Health Engineering and Management
water pollution
phenylalanine
ferrosoferric oxide
arsenic
author_facet Laleh Adlnasab
Nader Djafarzadeh
Akram Maghsodi
author_sort Laleh Adlnasab
title A new magnetic bio-sorbent for arsenate removal from the contaminated water: Characterization, isotherms, and kinetics
title_short A new magnetic bio-sorbent for arsenate removal from the contaminated water: Characterization, isotherms, and kinetics
title_full A new magnetic bio-sorbent for arsenate removal from the contaminated water: Characterization, isotherms, and kinetics
title_fullStr A new magnetic bio-sorbent for arsenate removal from the contaminated water: Characterization, isotherms, and kinetics
title_full_unstemmed A new magnetic bio-sorbent for arsenate removal from the contaminated water: Characterization, isotherms, and kinetics
title_sort new magnetic bio-sorbent for arsenate removal from the contaminated water: characterization, isotherms, and kinetics
publisher Kerman University of Medical Sciences
series Environmental Health Engineering and Management
issn 2423-3765
2423-4311
publishDate 2020-04-01
description Background: Arsenic (AS) is a heavy metal pollutant in water that has been known as one of the most important environmental contaminants due to its serious effects on both human health and the environment. This study was conducted to investigate the efficiency of calcined Co/Fe/Al LDH@Fe3O4@PA as a new magnetic bio-sorbent for AS removal from the polluted water.Methods:At first, magnetic ternary calcined layered double hydroxide (Co/Fe/Al LDH) was synthesized through co-precipitation procedure. The synthesized CLDH was modified with phenylalanine amino acid, named CLDH@Fe3O4@PA. Infrared spectroscopy, X-ray diffraction, transmission, and field emission scanning electron microscopy (FESEM) were used to confirm the synthesis of the sorbent. The removal time, pH, and the sorbent dose were studied and optimized as the effective parameters on the As (V) removal. Results:The XRD, FTIR, TEM, SEM, EDS, and VSM techniques confirmed the properties of the synthesized magnetic bio-sorbent. Based on the optimization study, pH=6, the sorbent concentration of 30 mg, and the removal time of 5 minutes were considered as the optimum conditions with about 91% AS removal. The Langmuir isotherm with higher R2 value was matched well with the obtained results, and values obtained for qm and RL were 167 mg g–1 and 0.976 to 0.993, respectively. The kinetics studies were fitted well with the linear pseudo-first-order model with higher R2 at sorption process.Conclusion: The real samples results confirmed the excellent As (V) sorption capacity of the synthesized magnetic bio-sorbent in comparison with other sorbents. Therefore, CLDH@Fe3O4@PA sorbent is introduced as a new suitable sorbent for removal of As (V) from the polluted water.
topic water pollution
phenylalanine
ferrosoferric oxide
arsenic
url http://ehemj.com/article-1-574-en.pdf
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