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PUBMED FOR HANDHELDS

Journal Abstract Search


323 related items for PubMed ID: 32361349

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  • 3. Fate of low arsenic concentrations during full-scale aeration and rapid filtration.
    Gude JCJ, Rietveld LC, van Halem D.
    Water Res; 2016 Jan 01; 88():566-574. PubMed ID: 26547752
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  • 4. Arsenic removal from drinking water by a household sand filter in Vietnam--effect of filter usage practices on arsenic removal efficiency and microbiological water quality.
    Nitzsche KS, Lan VM, Trang PT, Viet PH, Berg M, Voegelin A, Planer-Friedrich B, Zahoransky J, Müller SK, Byrne JM, Schröder C, Behrens S, Kappler A.
    Sci Total Environ; 2015 Jan 01; 502():526-36. PubMed ID: 25300017
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  • 5. Sorption and desorption of arsenic to ferrihydrite in a sand filter.
    Jessen S, Larsen F, Koch CB, Arvin E.
    Environ Sci Technol; 2005 Oct 15; 39(20):8045-51. PubMed ID: 16295873
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  • 7. Oxidation and removal of arsenic (III) from aerated groundwater by filtration through sand and zero-valent iron.
    Leupin OX, Hug SJ.
    Water Res; 2005 May 15; 39(9):1729-40. PubMed ID: 15899271
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  • 8. As(III) removal in rapid filters: Effect of pH, Fe(II)/Fe(III), filtration velocity and media size.
    Gude JCJ, Rietveld LC, van Halem D.
    Water Res; 2018 Dec 15; 147():342-349. PubMed ID: 30321824
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  • 9. As(III) oxidation by MnO2 during groundwater treatment.
    Gude JCJ, Rietveld LC, van Halem D.
    Water Res; 2017 Mar 15; 111():41-51. PubMed ID: 28040540
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  • 10. Arsenite removal from groundwater by iron-manganese oxides filter media: Behavior and mechanism.
    Cheng Y, Zhang S, Huang T, Li Y.
    Water Environ Res; 2019 Jun 15; 91(6):536-545. PubMed ID: 30667121
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  • 11. Assessment of arsenic removal efficiency by an iron oxide-coated sand filter process.
    Callegari A, Ferronato N, Rada EC, Capodaglio AG, Torretta V.
    Environ Sci Pollut Res Int; 2018 Sep 15; 25(26):26135-26143. PubMed ID: 29971744
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  • 12. Pilot study on arsenic removal from groundwater using a small-scale reverse osmosis system-Towards sustainable drinking water production.
    Schmidt SA, Gukelberger E, Hermann M, Fiedler F, Großmann B, Hoinkis J, Ghosh A, Chatterjee D, Bundschuh J.
    J Hazard Mater; 2016 Nov 15; 318():671-678. PubMed ID: 27497227
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  • 14. Effect of supernatant water level on As removal in biological rapid sand filters.
    Gude JCJ, Joris K, Huysman K, Rietveld LC, van Halem D.
    Water Res X; 2018 Dec 01; 1():100013. PubMed ID: 31193912
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  • 15. Deep-dive into iron-based co-precipitation of arsenic: A review of mechanisms derived from synchrotron techniques and implications for groundwater treatment.
    Ahmad A, van Genuchten CM.
    Water Res; 2024 Feb 01; 249():120970. PubMed ID: 38064786
    [Abstract] [Full Text] [Related]

  • 16. Arsenic removal from groundwater by household sand filters: comparative field study, model calculations, and health benefits.
    Berg M, Luzi S, Trang PT, Viet PH, Giger W, Stüben D.
    Environ Sci Technol; 2006 Sep 01; 40(17):5567-73. PubMed ID: 16999141
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  • 17. Effect of pre-aeration on the removal of arsenic and iron from natural groundwater in household based ceramic filters.
    Shafiquzzaman M.
    J Environ Manage; 2021 Aug 01; 291():112681. PubMed ID: 33965703
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  • 19. Groundwater As Removal by As(III), Fe(II), and Mn(II) Co-Oxidation: Contrasting As Removal Pathways with O2, NaOCl, and KMnO4.
    van Genuchten CM, Ahmad A.
    Environ Sci Technol; 2020 Dec 01; 54(23):15454-15464. PubMed ID: 33174730
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  • 20. Arsenic removal from iron-containing groundwater by delayed aeration in dual-media sand filters.
    Annaduzzaman M, Rietveld LC, Hoque BA, Bari MN, van Halem D.
    J Hazard Mater; 2021 Jun 05; 411():124823. PubMed ID: 33858074
    [Abstract] [Full Text] [Related]


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