2011
DOI: 10.2166/wst.2011.551
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Addition of a magnetite layer onto a polysulfone water treatment membrane to enhance virus removal

Abstract: Addition of a Magnetite Layer onto a Polysulfone Water Treatment Membrane to Enhance Virus Removal by Isabel RacinyThe applicability of low-pressure membranes systems in distributed (point of use) water treatment is hindered by, among other things, their inability to remove potentially harmful viruses and ions via size exclusion.According to the USEPA and the Safe Drinking Water Act, drinking water treatment processes must be designed for 4-log virus removal. Batch experiments using magnetite nanoparticle (nan… Show more

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Cited by 15 publications
(4 citation statements)
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“…Various techniques as well are employed to facilitate the formation of the dynamic layer. These encompass methods such as immersion (Armendáriz-Ontiveros et al, 2020), dip-coating (Kyesmen et al, 2021;Parshetti & Doong, 2012), permeation drag (Usman et al, 2021;Raciny et al, 2011) and interfacial polymerization (IP) (Al-Hobaib et al, 2016), among others.…”
Section: Iron-containing Dynamic Membranesmentioning
confidence: 99%
“…Various techniques as well are employed to facilitate the formation of the dynamic layer. These encompass methods such as immersion (Armendáriz-Ontiveros et al, 2020), dip-coating (Kyesmen et al, 2021;Parshetti & Doong, 2012), permeation drag (Usman et al, 2021;Raciny et al, 2011) and interfacial polymerization (IP) (Al-Hobaib et al, 2016), among others.…”
Section: Iron-containing Dynamic Membranesmentioning
confidence: 99%
“… Polo et al (2015) Polysulfone membrane coated with magnetite Bacteriophage MS2 Coating with magnetite improves treatment performance up to 99.99% in the Log 4 region. Raciny et al (2011) Advanced bardenpho as a secondary treatment in a water plant Pepper mild mottle virus, Aichi virus, noroviruses, enterovirus, sapovirus, rotavirus, adenovirus and polyomaviruses When the advanced bardenpho was used as a secondary treatment in a water treatment plant, most pathogenic viruses were removed and it compared better to the conventional process. Schmitz et al (2016) Activated carbon modified with silver and copper oxide nanoparticles Bacteriophage T4 The modified porous media was able to achieve virus reduction in the region of Log 3.…”
Section: Management and Mitigation Strategiesmentioning
confidence: 99%
“…A key point to consider when designing novel filtration methods is the design of filter coating methods in order to lower the required energy for filtration, as well as regenerate the adsorption surfaces [36]. Hence, filters have also been successfully modified with materials such as magnetite, silver, magnesium oxide and hydrophilic polymers [35][36][37][38]. Ceramic water filters which are based on size exclusion have becoming a point-of-use method of contaminant filtration for household use.…”
Section: Adsorbent Filtration Materialsmentioning
confidence: 99%