Innovative Methods of Centrifugal Separation

Author:

Brouwers J. J. H.1ORCID

Affiliation:

1. Romico Hold, 6226 GV Maastricht, The Netherlands

Abstract

Considered are: (i) separation of gaseous molecules of different weight by the Ultra Centrifuge with application to large scale uranium enrichment to fuel nuclear power plants; (ii) separation of micron-sized particulate matter from fluids in mechanical devices in which use is made of inertial and centrifugal forces; (iii) separation of gaseous mixtures by fast expansion and cooling such that one of the gaseous components forms a mist of micron-sized droplets which are separated by centrifugation; and (iv) separation of components from gases by absorbing liquid films in small sized rotating channels. For each of these technologies we consider: physics of the separation process, assessment of the influence of fluid flow in the separation device, identification of leading parameters and their effect on design, experimental evidence, status of development, areas of application, position compared to other technologies, and economic value.

Publisher

MDPI AG

Subject

Filtration and Separation,Analytical Chemistry

Reference32 articles.

1. Cohen, K.P. (1951). The Theory of Isotope Separation as Applied to the Large Scale Production of U-235, McGraw-Hill.

2. Verifying the spin of centrifuges;Delbeke;Energy,2010

3. Los, J. (1963). De Scheiding van Zware Isotopen in een Centrifugaal Veld. [Ph.D. Thesis, Leiden University]. Available online: https://www.lorentz.leidenuniv.nl/history/proefschriften/sources/Los_1963.pdf.

4. The Separative Power of Short Countercurrent Columns;Los;Z. Naturforschung,1964

5. Brouwers, J.J.H. (1976). On the Motion of a Compressible Gas in a Rotating Cylinder. [Ph.D. Thesis, University of Twente]. Available online: https://pure.tue.nl/ws/portalfiles/portal/3503099/703721842548872.pdf.

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