Improved peptide fractionation by electrodialysis with ultrafiltration membrane: Influence of ultrafiltration membrane stacking and electrical field strength

“…Therefore, it would be desirable to apply alternative and effective methods to reduce the membrane fouling. Current membrane fouling control methods for UF or MF processes include vibration [5], gas sparging [6,7], backflushing [8,9], pulsatile flow [10] and electrical field [11]. All those techniques have some limitations.…”

Effects of ultrasound parameters on ultrasound-assisted ultrafiltration using cross-flow hollow fiber membrane for Radix astragalus extracts

“…Therefore, it would be desirable to apply alternative and effective methods to reduce the membrane fouling. Current membrane fouling control methods for UF or MF processes include vibration [5], gas sparging [6,7], backflushing [8,9], pulsatile flow [10] and electrical field [11]. All those techniques have some limitations.…”

Effects of ultrasound parameters on ultrasound-assisted ultrafiltration using cross-flow hollow fiber membrane for Radix astragalus extracts

“…It allows separation of molecules according to their electric charges (electrodialysis) and to their molecular mass (membrane filtration cut-off). The feasibility of this process was demonstrated with notably hydrolysate of ␤-lactoglobulin [18] and alfalfa white protein [19].…”

Demonstration of in vitro anticancer properties of peptide fractions from a snow crab by-products hydrolysate after separation by electrodialysis with ultrafiltration membranes

“…In this sense, two different configurations can be distinguished: electrically-enhanced filtration, which can be used with conventional pressure driven membrane filtration, and forced-flow membrane electrophoresis, which is conducted in an electrophoretic cell. Intensive researches on these membrane processes have been carried out including electromembrane filtration (EMF) [94][95], electrodialysis with UF membranes (EDUF) [96][97][98][99] and forced-flow electrophoresis (FFE) [100] for the separation of charged bioactive molecules.…”

Advancements in the Fractionation of Milk Biopeptides by Means of Membrane Processes