Low pressure microfilter design aspects and filtration performance

Stillwell, Michael T.; Sumritwatchasai, Wiwit; Holdich, Richard; Kosvintsev, S.R.

Low pressure microfilter design aspects and filtration performance

journal contribution

posted on 2009-10-22, 16:19 authored by Michael T. Stillwell, Wiwit Sumritwatchasai, Richard Holdich, S.R. Kosvintsev

A microfilter should retain micron sized material yet provide minimal resistance to liquid flow. A slotted pore surface microfilter was oscillated whilst filtering yeast cells under constant rate. At shear rates over 7760 s-1, a pore blocking model fitted the data. The operating pressure was very low (<1000 Pa), but particle retention was limited by the 4 micron pore slot width. A sintered glass micro-bead coating improved yeast rejection: 95% at 1.7 microns at a shear rate of 5000 s-1, with a 1.2 kPa transmembrane pressure. Two models were validated to assist with the design of future micro-bead coatings constructed from spherical particles.

History

School

Aeronautical, Automotive, Chemical and Materials Engineering

Department

Chemical Engineering

Citation

STILLWELL, M.T....et al., 2009. Low pressure microfilter design aspects and filtration performance. Separation Science and Technology, 44 (11) pp. 2541 - 2558.