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Development of materials engineering solutions for treatment of Murray-Darling Basin sourced water supplies collection

University of South Australia
AsPr John Van Leeuwen (Aggregated by) Dr David Steele (Aggregated by) Prof Chris Chow (Aggregated by) Prof Peter Majewski (Aggregated by) Prof Robert Short (Aggregated by) View all 6 related researchers
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ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft.title=Development of materials engineering solutions for treatment of Murray-Darling Basin sourced water supplies collection&rft.identifier= https://research.unisa.edu.au/metadatasystem/redbox/published/detail/f8f515f9fcbaafed453e4556bc6cfee7 &rft.publisher=University of South Australia&rft.description=ToF-SIMS analysis of silane coated silica, modified for the purpose of removal of humic acid from drinking water.\n\nThe surface of these silica particles had been modified through a process of plasma polymerisation, which resulted in coating with an amine adduct. These sands are to be used in water treatment to help remove undesirable contaminants, such as humic acid. The influences of treatment time and plasma polymerisation settings were investigated by ToF-SIMS, by measuring the distribution and intensity of the plasma polymer signal. This could then be correlated to the best conditions to use when designing a low cost water treatment system.&rft.creator=Anonymous&rft.date=2013&rft_rights= Access to the collection may be subject to licence and privacy conditions. Requests for access can be made through the listed contact. &rft_subject=Surface Analysis&rft_subject=Humic Acid&rft_subject=Drinking Water&rft_subject=Plasma Polymerisation&rft_subject=Manufacturing Engineering Not Elsewhere Classified&rft_subject=Manufacturing Engineering&rft_subject=Engineering&rft_subject=Manufacturing Not Elsewhere Classified&rft_subject=Other Manufacturing&rft_subject=Manufacturing&rft.type=dataset&rft.language=English Go to Data Provider

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john.denman@unisa.edu.au

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ToF-SIMS analysis of silane coated silica, modified for the purpose of removal of humic acid from drinking water.\n\nThe surface of these silica particles had been modified through a process of plasma polymerisation, which resulted in coating with an amine adduct. These sands are to be used in water treatment to help remove undesirable contaminants, such as humic acid. The influences of treatment time and plasma polymerisation settings were investigated by ToF-SIMS, by measuring the distribution and intensity of the plasma polymer signal. This could then be correlated to the best conditions to use when designing a low cost water treatment system.

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  • Local : https://research.unisa.edu.au/metadatasystem/redbox/published/detail/f8f515f9fcbaafed453e4556bc6cfee7