We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Dataset of paper "Kinetic and mechanistic analysis of membrane fouling in microplastics removal from water by dead-end microfiltration"
Summary
This is a duplicate dataset entry for the membrane fouling study on microplastic removal by microfiltration. The data document how plastic particles progressively block filter membranes, which is critical information for designing effective water treatment systems.
Dataset of paper "Kinetic and mechanistic analysis of membrane fouling in microplastics removal from water by dead-end microfiltration": Microplastics and membrane characterisation: micro-FTIR and ATR spectra. Particle Size Distribution. Identifying the main successive fouling mechanisms using Hermia’s equation. The kinetic constants as a function of the microplastic type and the operating parameters. Permeate flux decline during microplastics filtration. Water contact angle and profilometry measured before and after the filtration of MPs.
Sign in to start a discussion.
More Papers Like This
Dataset of paper "Kinetic and mechanistic analysis of membrane fouling in microplastics removal from water by dead-end microfiltration"
This is the dataset for a study on how membrane fouling occurs during microplastic removal from water by dead-end microfiltration. The data include measurements of particle size, filter membrane characteristics, and fouling kinetics essential for optimizing water treatment processes.
Kinetic and mechanistic analysis of membrane fouling in microplastics removal from water by dead-end microfiltration
Researchers analyzed membrane fouling during microplastic removal by microfiltration, finding that polyamide particles caused more fouling than polystyrene due to higher hydrophobicity and smaller size, with pore blocking followed by cake layer formation as the dominant fouling mechanisms.
Fate and Behavior of Microplastics in Ultrafiltration Membrane Systems for Water Treatment: Fouling, Releasing, and Organic Leaching
Researchers investigated the fate and behavior of microplastics in ultrafiltration membrane systems used for water treatment, examining three key phenomena: membrane fouling caused by microplastic deposition, release of microplastics through membrane failure or bypass, and leaching of organic additives from microplastics. The work provides mechanistic understanding of how microplastics interact with ultrafiltration systems in drinking water treatment contexts.
Evaluation of Membrane Fouling by Microplastic Particles in Tertiary Wastewater Treatment Processes
Researchers evaluated membrane fouling caused by microplastic particles during tertiary wastewater treatment, finding that microplastics contributed to fouling through pore blocking and cake layer formation, which reduced membrane performance and treatment efficiency.
Recent advances on micro/nanoplastic pollution and membrane fouling during water treatment: A review
Researchers reviewed recent advances in understanding how micro- and nanoplastics contribute to membrane fouling during water treatment processes. The study found that while membrane separation effectively removes microplastics from wastewater effluent, fouling caused by plastic particles along with dissolved organics and extracellular polymers remains a key obstacle, and understanding the fouling mechanisms is critical for improving treatment efficiency.