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- Enhanced anti-fouling performance through integrated coagulation and . . .
Membrane fouling remains a significant challenge limiting the widespread use of membrane technology in water treatment, particularly in ultrafiltration (UF) processes To address this, we proposed a “coagulation + membrane modification” strategy to enhance fouling mitigation
- Reconstruction and analysis of pore blockage fouling in ceramic . . .
This study provides key insights into pore blockage fouling in trilayer ceramic UF membranes, and offers a theoretical basis for guiding the design of anti-fouling membranes
- A review on mitigation of pressure-driven membrane fouling by . . .
The performance of coagulation flocculation, including its coupling processes with other pretreatment technologies, in controlling pressure-driven membrane fouling has been reviewed in detail according to fouling type (including inorganic, organic, and microbial fouling) in this paper
- Membrane Fouling Control and Treatment Performance Using Coagulation . . .
A comparative study was conducted to investigate membrane fouling control and treatment performance using natural surface water as the feed source
- Coagulation co-catalytic membrane integrated system for fouling . . .
Here we propose a ferric salt-based coagulation co-catalytic membrane integrated system that can effectively mitigate the detrimental effects of DOM
- A review on mitigation of pressure-driven membrane fouling . . .
The performance of coagulation flocculation, including its coupling processes with other pretreatment technologies, in controlling pressure-driven membrane fouling has been reviewed in detail according to fouling type (including inorganic, organic, and microbial fouling) in this paper
- A strategy to alleviate membrane fouling by optimizing the . . .
Direct regulation of the structure of the cake layer formed by rapid deposition of flocs as a “secondary barrier” in the in-line coagulation ultrafiltration (C-UF) process has acquired importance as a research topic in comparison to membrane modification and standard coagulation ultrafiltration
- Deciphering advanced coagulation strategies for AGMBR . . .
Aerobic granular sludge membrane bioreactor (AGMBR) is highly efficient in treating urban sewage but is susceptible to membrane fouling caused by extracellular polymeric substances In this study, we have developed five novel coagulation systems by combining commercially available inorganic coagulants with a self-made modified microbial flocculant (MMF), focusing on evaluating the effects of
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