Water Science & Technology: Water Supply Vol 7 No 5-6 pp 175–184 © IWA Publishing 2007 doi:10.2166/ws.2007.140

Fluid dynamic gauging: a new technique for studying membrane fouling

Y.M.J. Chew, W.R. Paterson and D.I. Wilson

The deposition of fouling layers on porous surfaces such as those experienced in membrane/filtration systems has been investigated using the technique of fluid dynamic gauging (FDG). In this work, dead end microfiltration was simulated using polymeric microfiltration membranes and Sphericel (hollow glass spheres) suspensions. FDG was used to track, in situ and in real time, the build-up of a Sphericel cake during the filtration process. The permeate flux through the membrane was also simultaneously monitored.

Computational fluid dynamics (CFD) studies were also performed to illuminate the fluid dynamics of FDG, with particular focus on the flow patterns and on the stresses imposed on the porous surface. The governing Navier-Stokes, Darcy's and continuity equations were solved using the commercial partial differential equation solver, Fastflo™. Simulations of gauging flow with a permeable gauged surface were then conducted and comparison with filtration experiments showed excellent agreement.

Keywords: CFD; fouling; membrane; permeate flux; thickness

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