Effect of sonication for in-situ stainless steel leaf filtration
Abstract
The application of ultrasound wave fields in the filtration and separation technology has been identified as a new and clean
technology and as an alternative to the classical cleaning processes. Fouling phenomena is a major bottleneck in this
separation technology, as expected in the industrial application of such finely porous media. As the filtration process
continues, the concentration of solute keeps building up on the filter surface to form a filter cake. This results in a continuous
decline of the flux. A number of methods are reported in preventing the fouling phenomena. In this paper, the effect of
intermittent application of ultrasound wave fields (sonication) on the filtration of Refined Bleached Deodorised (RBD) oil
suspension will be presented. The application of ultrasound field is projected to enhance the filtration rate by reducing the
thickness of the filter cake formed on the surface of the filtering medium. The main mechanism which is expected to dominate
in reducing the thickness of the filter cake is the cavitation phenomenon. In carrying out the study, parameters affecting the
performance of the sonicated filtration also will be presented. Among the parameters of concern is the sonication cycle time.
An average flux is measured in each experiment as an indication of effectiveness of this method in reducing the filter fouling.
In all cases, the application of ultrasound for filtration and separation processes has been successful by reducing the flux
decline at different variables.
URI
http://myiem.org.my/content/iem_journal_2006-177.aspxhttp://dspace.unimap.edu.my/123456789/13573
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