2023
DOI: 10.3390/membranes13010099
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Direct Membrane Filtration of Municipal Wastewater: Studying the Most Suitable Conditions for Minimizing Fouling Rate in Commercial Porous Membranes at Demonstration Scale

Abstract: This study aimed to evaluate the feasibility of applying a commercial porous membrane to direct filtration of municipal wastewater. The effects of membrane pore size (MF and UF), treated influent (raw wastewater and the primary settler effluent of a municipal wastewater treatment plant) and operating solids concentration (about 1 and 2.6 g L−1) were evaluated on a demonstration plant. Filtration periods of 2–8 h were achieved when using the MF membrane, while these increased to 34–69 days with the UF membrane.… Show more

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Cited by 13 publications
(4 citation statements)
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“…These values correlate well with those expected for the state-of-the-art PVDF-based microfiltration membranes. [61][62][63] The increment in the initial flux followed by a flow reduction in the long term, especially for pH 2 (see the extrapolation to 1 month, considered long-term operation conditions for commercial microfiltration membranes, 64 in Fig. S1 and Table S1 in the ESI †), corresponds to a synergistic effect between their improved hydrophilicity/oleophobicity and pore size reduction.…”
Section: Simultaneous Separation and Catalytic Performancementioning
confidence: 99%
“…These values correlate well with those expected for the state-of-the-art PVDF-based microfiltration membranes. [61][62][63] The increment in the initial flux followed by a flow reduction in the long term, especially for pH 2 (see the extrapolation to 1 month, considered long-term operation conditions for commercial microfiltration membranes, 64 in Fig. S1 and Table S1 in the ESI †), corresponds to a synergistic effect between their improved hydrophilicity/oleophobicity and pore size reduction.…”
Section: Simultaneous Separation and Catalytic Performancementioning
confidence: 99%
“…Therefore, these processes can theoretically achieve perfect exclusion of particles regardless of operational parameters such as influent concentration, pressure, or the skills of the operator. The separation is based on the membrane pore size and the quality of product is determined by the membrane [9][10][11]. The major mechanisms of separation in MF and UF include: (a) straining, which occurs when particles are physically retained because they are larger than the pores (Figure 1a).…”
Section: Introductionmentioning
confidence: 99%
“…This cake acts as a pre-coat filtration medium, often called a dynamic membrane since its filtering capability varies with time, growing in thickness during filtration but being partially or wholly removed by cleaning [9]; and (c) adsorption, which results when material small enough to enter pores adsorbs to the walls of the pores. If the particles and the membrane are oppositely charged, or if their zeta potentials are appropriate, the particles adhere to the membrane matrix, resulting in removal of the particles smaller than the pores of the membrane [8,11]. This means that soluble materials may be rejected even though their physical dimensions are much smaller than the membrane retention rating (Figure 1c).…”
Section: Introductionmentioning
confidence: 99%
“…Aunque las membranas de MF presentan una menor resistencia a la filtración debido a su mayor tamaño de poro, este mayor tamaño de poro las hace susceptibles a que las partículas penetren en los poros y los bloqueen, provocando un ensuciamiento irreversible. Por el contrario, la UF conlleva un mayor resistencia a la filtración porque su tamaño de poro es menor, pero esto le protege en mayor medida de la obstrución interna de sus poros por la penetración de partículas (Sanchis-Perucho et al, 2023) Membranas dinámicas…”
Section: Ultrafiltración Y Microfiltraciónunclassified