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Cationically branched starch-based flocculants for synergistic . . . CS-ECH efficiently alleviates ultrafiltration membrane fouling resistance CS-ECH produces large but loose dye flocs because of its distinct branched structure Bridging and sweeping effects of CS-ECH are enhanced besides charge neutralization
A Comprehensive Review on Membrane Fouling: Mathematical . . . - MDPI This paper presents a review of the different membrane fouling types, fouling-inducing factors, predictive methods, diagnostic techniques, and mitigation strategies, with a special focus on RO membrane fouling
Reduced Low–Pressure Membrane Fouling by Inline Coagulation . . . Based on the above findings, it is of interest to ascertain whether the differences in LPM fouling behavior following pretreatment of highly colored waters were a result of the distinct membrane material configuration used in each study
Insights into the Mechanism of Coagulation Pretreatment for Membrane . . . Herein, the coagulation-ultrafiltration combined process (C-UF) was applied to the actual lake water treatment, and a novel polyaluminum titanium composite coagulant (PATC) was used as a pretreatment reagent for membrane fouling mitigation
Role of coagulation flocculation as a pretreatment option to reduce . . . It helps to remove bio-foulants generated during biological treatment stages, which are the major causes of membrane damage and fouling; thus, incorporation of the coagulation flocculation step may help overcome the limited application of filtration systems for textile wastewater treatment
Coagulation flocculation prior to low pressure membranes in drinking . . . This section discusses the impact of coagulation flocculation configuration types on membrane fouling in terms of resistance (i e resistance to flow), fouling rate, as well as hydraulically and chemically reversible irreversible fouling
In-line coagulation assessment for ultrafiltration fouling reduction to . . . The impact of four coagulants at different dosages on reversible and irreversible membrane fouling and permeate quality was studied It was found that in-line coagulation improved UF performance to varying degrees depending on coagulant type and dosage