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Arsenic Removal from Groundwater by Solar Driven Inline-Electrolytic Induced Co-Precipitation and Filtration—A Long Term Field Test Conducted in West Bengal

Author

Listed:
  • Philipp Otter

    (AUTARCON GmbH, D-34117 Kassel, Germany)

  • Pradyut Malakar

    (International Centre for Ecological Engineering, University of Kalyani, Kalyani, West Bengal 741235, India)

  • Bana Bihari Jana

    (Kalyani Shine India, Kalyani, West Bengal 741235, India)

  • Thomas Grischek

    (Division of Water Sciences, University of Applied Sciences Dresden, D-01069 Dresden, Germany)

  • Florian Benz

    (AUTARCON GmbH, D-34117 Kassel, Germany)

  • Alexander Goldmaier

    (AUTARCON GmbH, D-34117 Kassel, Germany)

  • Ulrike Feistel

    (Division of Water Sciences, University of Applied Sciences Dresden, D-01069 Dresden, Germany)

  • Joydev Jana

    (Public Health Engineering Department, Kalyani, West Bengal 741235, India)

  • Susmita Lahiri

    (International Centre for Ecological Engineering, University of Kalyani, Kalyani, West Bengal 741235, India)

  • Juan Antonio Alvarez

    (AIMEN, C/. Relva, 27 A—Torneiros, Porriño, 36410 Pontevedra, Spain)

Abstract

Arsenic contamination in drinking water resources is of major concern in the Ganga delta plains of West Bengal in India and Bangladesh. Here, several laboratory and field studies on arsenic removal from drinking water resources were conducted in the past and the application of strong-oxidant-induced co-precipitation of arsenic on iron hydroxides is still considered as the most promising mechanism. This paper suggests an autonomous, solar driven arsenic removal setting and presents the findings of a long term field test conducted in West Bengal. The system applies an inline-electrolytic cell for in situ chlorine production using the natural chloride content of the water and by that substituting the external dosing of strong oxidants. Co-precipitation of As(V) occurs on freshly formed iron hydroxide, which is removed by Manganese Greensand Plus ® filtration. The test was conducted for ten months under changing source water conditions considering arsenic (187 ± 45 µg/L), iron (5.5 ± 0.8 mg/L), manganese (1.5 ± 0.4 mg/L), phosphate (2.4 ± 1.3 mg/L) and ammonium (1.4 ± 0.5 mg/L) concentrations. Depending on the system setting removal rates of 94% for arsenic (10 ± 4 µg/L), >99% for iron (0.03 ± 0.03 mg/L), 96% for manganese (0.06 ± 0.05 mg/L), 72% for phosphate (0.7 ± 0.3 mg/L) and 84% for ammonium (0.18 ± 0.12 mg/L) were achieved—without the addition of any chemicals/adsorbents. Loading densities of arsenic on iron hydroxides averaged to 31 µgAs/mgFe. As the test was performed under field conditions and the here proposed removal mechanisms work fully autonomously, it poses a technically feasible treatment alternative, especially for rural areas.

Suggested Citation

  • Philipp Otter & Pradyut Malakar & Bana Bihari Jana & Thomas Grischek & Florian Benz & Alexander Goldmaier & Ulrike Feistel & Joydev Jana & Susmita Lahiri & Juan Antonio Alvarez, 2017. "Arsenic Removal from Groundwater by Solar Driven Inline-Electrolytic Induced Co-Precipitation and Filtration—A Long Term Field Test Conducted in West Bengal," IJERPH, MDPI, vol. 14(10), pages 1-22, October.
  • Handle: RePEc:gam:jijerp:v:14:y:2017:i:10:p:1167-:d:113976
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    References listed on IDEAS

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    1. Jia-Qian Jiang & S. M. Ashekuzzaman & Anlun Jiang & S. M. Sharifuzzaman & Sayedur Rahman Chowdhury, 2012. "Arsenic Contaminated Groundwater and Its Treatment Options in Bangladesh," IJERPH, MDPI, vol. 10(1), pages 1-29, December.
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    Cited by:

    1. Roya Sadat Neisan & Noori M. Cata Saady & Carlos Bazan & Sohrab Zendehboudi & Abbas Al-nayili & Bassim Abbassi & Pritha Chatterjee, 2023. "Arsenic Removal by Adsorbents from Water for Small Communities’ Decentralized Systems: Performance, Characterization, and Effective Parameters," Clean Technol., MDPI, vol. 5(1), pages 1-51, March.

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