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Technologies for Arsenic Removal from Water: Current Status and Future Perspectives

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  • Nina Ricci Nicomel

    (Laboratory of Analytical Chemistry and Applied Ecochemistry, Ghent University, Coupure Links 653, B-9000 Gent, Belgium
    Department of Inorganic and Physical Chemistry, Center for Ordered Materials, Organometallics and Catalysis (COMOC), Ghent University, Krijgslaan 281-S3, B-9000 Gent, Belgium
    Department of Engineering Science, College of Engineering and Agro-Industrial Technology, University of the Philippines Los BaƱos, 4031 Laguna, Philippines)

  • Karen Leus

    (Department of Inorganic and Physical Chemistry, Center for Ordered Materials, Organometallics and Catalysis (COMOC), Ghent University, Krijgslaan 281-S3, B-9000 Gent, Belgium)

  • Karel Folens

    (Laboratory of Analytical Chemistry and Applied Ecochemistry, Ghent University, Coupure Links 653, B-9000 Gent, Belgium)

  • Pascal Van Der Voort

    (Department of Inorganic and Physical Chemistry, Center for Ordered Materials, Organometallics and Catalysis (COMOC), Ghent University, Krijgslaan 281-S3, B-9000 Gent, Belgium)

  • Gijs Du Laing

    (Laboratory of Analytical Chemistry and Applied Ecochemistry, Ghent University, Coupure Links 653, B-9000 Gent, Belgium)

Abstract

This review paper presents an overview of the available technologies used nowadays for the removal of arsenic species from water. Conventionally applied techniques to remove arsenic species include oxidation, coagulation-flocculation, and membrane techniques. Besides, progress has recently been made on the utility of various nanoparticles for the remediation of contaminated water. A critical analysis of the most widely investigated nanoparticles is presented and promising future research on novel porous materials, such as metal organic frameworks, is suggested.

Suggested Citation

  • Nina Ricci Nicomel & Karen Leus & Karel Folens & Pascal Van Der Voort & Gijs Du Laing, 2015. "Technologies for Arsenic Removal from Water: Current Status and Future Perspectives," IJERPH, MDPI, vol. 13(1), pages 1-24, December.
  • Handle: RePEc:gam:jijerp:v:13:y:2015:i:1:p:62-:d:61056
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    References listed on IDEAS

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    1. Sen Gupta, Bhaskar & Chatterjee, S. & Rott, U & Kauffman, H & Bandopadhyay, Amitava & DeGroot, W & Nag, N.K. & Carbonell-Barrachina, A.A. & Mukhopadhyay, Soumyadeep, 2009. "A simple chemical free arsenic removal method for community water supply - A case study from West Bengal, India," MPRA Paper 60684, University Library of Munich, Germany, revised 2009.
    2. Viet, P. H. & Con, T. H. & Ha, C. T. & Tin, N. V. & Berg, M. & Giger, W. & Schertenleib, R., 2003. "Arsenic removal technologies for drinking water in Vietnam," Conference Papers h033502, International Water Management Institute.
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    Cited by:

    1. Damon E. Abdi & Jennifer Blanchard & Jeb S. Fields & Leticia Santos & Lily Beasley & Jeffrey Beasley, 2023. "Reducing Anion Nutrient Leaching Losses from a Short-Cycle Container-Grown Crop ( Tagetes patula ) Using Activated Aluminum," Agriculture, MDPI, vol. 13(5), pages 1-13, May.
    2. Iftikhar Ahmad & Abdul Ghaffar & Ali Zakir & Zia Ul Haq Khan & Muhammad Farhan Saeed & Atta Rasool & Aftab Jamal & Adil Mihoub & Simone Marzeddu & Maria Rosaria Boni, 2022. "Activated Biochar Is an Effective Technique for Arsenic Removal from Contaminated Drinking Water in Pakistan," Sustainability, MDPI, vol. 14(21), pages 1-20, November.

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