Investigation of Parameters for Controlling Morphology and Pore Size in UF Mambrans, M.Sc. Thesis Sharif University of Technology ; Seyfkordi, Ali Akbar (Supervisor) ; Hemmati, Mahmud (Supervisor)
Abstract
In order to increase the life-cycle of membrane filtration systems, energy efficient membranes are being developed in membrane bioreactor systems. Technology has been introduced which allows the power required to aerate the membrane for cleaning to be reduced whilst still maintaining a high flux level. Mechanical cleaning processes have also been adopted using granulates as an alternative to conventional forms of cleaning; this reduces energy consumption and also reduces the area required for filtration tanks.Membrane properties have also been enhanced to reduce fouling tendencies by modifying surface properties. This can be noted in the biotechnology industry where membrane surfaces have...
Cataloging briefInvestigation of Parameters for Controlling Morphology and Pore Size in UF Mambrans, M.Sc. Thesis Sharif University of Technology ; Seyfkordi, Ali Akbar (Supervisor) ; Hemmati, Mahmud (Supervisor)
Abstract
In order to increase the life-cycle of membrane filtration systems, energy efficient membranes are being developed in membrane bioreactor systems. Technology has been introduced which allows the power required to aerate the membrane for cleaning to be reduced whilst still maintaining a high flux level. Mechanical cleaning processes have also been adopted using granulates as an alternative to conventional forms of cleaning; this reduces energy consumption and also reduces the area required for filtration tanks.Membrane properties have also been enhanced to reduce fouling tendencies by modifying surface properties. This can be noted in the biotechnology industry where membrane surfaces have...
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