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The Synergistic fouling of ceramic membranes by particles and natural organic matter fractions using different surface waters in South Africa

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dc.contributor.author Moyo, Welldone
dc.contributor.author Chaukura, Nhamo
dc.contributor.author Motsa, Machawe
dc.contributor.author Mthombeni, Nomcebo Happiness
dc.contributor.author Msagati, Titus
dc.contributor.author Mamba, Bhekie
dc.contributor.author Heijman, Sebastiaan G.J
dc.contributor.author Nkambule, Thabo TI
dc.date.accessioned 2021-09-02T02:45:12Z
dc.date.available 2021-09-02T02:45:12Z
dc.date.issued 2021
dc.identifier.uri 10.22079/JMSR.2020.127635.1384
dc.description.abstract This study demonstrates the fundamental differences in fouling development and mechanisms of unfiltered and 0.45 µm pre-filtered water samples on ceramic membranes. Robust characterization of the feed waters was conducted using gravimetric analysis, optical methods and modeling techniques. UV254 removal and suspended solids (SS) for the unfiltered samples presented a strong correlation (R2 = 0.87). Further, SS exhibited strong correlations with fluorescent fractions (R2 = 0.82; 0.81 and 0.74 for C1; C2 and C3, respectively). This observation confirmed the significance of inorganic particles in the development of a combined fouling layer with fluorescent organic components. The fouling development rate for water sampled from Plattenburg Bay (PL) was higher than the rest of the 0.45 µm pre-filtered samples. This was attributed to the low conductivity (175 µS.m-1) of the water sample, translating to a low ionic strength environment. Samples collected from Hermanus River (HL) and Lepelle River (OL) had similar SS quantity (87.6 mg/L and 88.4 mg/L, respectively), and modified fouling index (MFI) values for raw samples were 6625 and 8060 s/L2, respectively, despite a very large difference in the content of organic matter (22.67 mg/L.C and 9.81 mg/L.C). This could be due to organic matter attaching onto the surface of particles and reducing the adsorption of NOM within membrane pores and/or onto the membrane active layer. This study demonstrated the extent of in situ background electrolytes, foulant concentration, foulant-foulant interactions, foulant-membrane interaction and physicochemical properties of feed stream on fouling development and mechanisms. en_US
dc.language.iso en en_US
dc.publisher Journal of Membrane Science & Research en_US
dc.subject Fluorescent organic matter en_US
dc.subject Membrane fouling resistance en_US
dc.subject Modified fouling index en_US
dc.subject Particulate organic matter en_US
dc.subject Synergistic fouling en_US
dc.title The Synergistic fouling of ceramic membranes by particles and natural organic matter fractions using different surface waters in South Africa en_US
dc.type Article en_US


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