Logo

Membrane development for improved performance of a magnetically induced vibration system for anaerobic sludge filtration

Mertens, M. and Bilad, M.R. and Gebreyohannes, A.Y. and Marbelia, L. and Vankelecom, I.F.J. (2018) Membrane development for improved performance of a magnetically induced vibration system for anaerobic sludge filtration. Separation and Purification Technology, 200 . pp. 120-129.

Full text not available from this repository.

Official URL: https://www.scopus.com/inward/record.uri?eid=2-s2....

Abstract

Magnetically induced membrane vibration as an alternative method to prevent membrane fouling was introduced in the past but membranes were never optimised for these systems. The starting hypothesis of this work is that a more open membrane, which entails a larger flux, can be used to fully benefit from these vibrations. This mechanical movement is expected to drastically reduce the foulant concentration at the membrane surface, thereby giving possibilities for a more open membrane. Polyvinylidene fluoride membranes were thus optimised by adding poly ethylene glycol as a pore-forming agent in different concentrations and with different molecular weight (MW) and by adjusting the polymer concentration in the casting solution. Overall performance of the modified membranes were evaluated using filtration indices (FIs) and a modified critical flux (CF) filtration method. A membrane composed of 12 wt PVDF, 10 wt 1000 Da PEG gave the best performance when the MMV was operated at 15 Hz in AnMBR sludge of 35 °C. The state of the art flux for anaerobic membrane bioreactors of 6 L/m2 h could thus be improved by more than 60. Surface pore size and membrane bulk porosity were identified as the two important parameters to optimise membranes for vibration systems. © 2018 Elsevier B.V.

Item Type:Article
Impact Factor:cited By 0
Uncontrolled Keywords:Bioreactors; Casting; Electric exciters; Ethylene; Ethylene glycol; Filtration; Fluorine compounds; Membrane fouling; Membranes; Polyols; Pore size; Surface treatment, Anaerobic membrane bioreactor; Magnetically induced vibration; Mechanical movements; Membrane vibrations; Polymer concentrations; Polyvinylidene difluoride; Polyvinylidene fluoride membranes; Pore-forming agents, Microfiltration
Departments / MOR / COE:Research Institutes > Institute for Sustainable Building
ID Code:21455
Deposited By: Ahmad Suhairi
Deposited On:25 Sep 2018 06:33
Last Modified:07 Jan 2019 07:28

Repository Staff Only: item control page