Author:
Michael D. H.,Norey P. W.
Abstract
Trajectories are calculated for small particles introduced upstream into a fluid flowing past a fixed sphere. Unseparated potential flow is taken as the velocity profile for the fluid, and the effect of gravity is included in the formulation when it acts along the axis of symmetry. Using a numerical procedure, particle trajectories which graze the sphere, and the corresponding collision efficiencies, are calculated for values of the Stokes number σ. When gravity is neglected, an analytic solution is obtained for large values of σ which is in good agreement with the numerical results for σ as low as 5. These results are compared with those of Sell (1931) and Langmuir & Blodgett (1946). When gravity is included, a critical value of the Stokes number σc is calculated for which no collisions occur until σ > σc.
Publisher
Cambridge University Press (CUP)
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics
Reference4 articles.
1. Michael, D. H. 1968 J. Fluid Mech. 31,175.
2. Langmuir, I. & Blodgett, K. 1946 U.S. Army Air Force Technical Report no. 5418.
3. Sell, W. 1931 Forsch. Geb. Ing. Wes. 2,347.
4. Cox, R. G. & Brenner, H. 1967 Chem. Engng. Sci. 22,1753.
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