Beran, Philip S. and Culick, Fred E. C. (1992) The role of non-uniqueness in the development of vortex breakdown in tubes. Journal of Fluid Mechanics, 242 . pp. 491-527. ISSN 0022-1120. http://resolver.caltech.edu/CaltechAUTHORS:20101129-102843529
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Numerical solutions of viscous, swirling flows through circular pipes of constant radius and circular pipes with throats have been obtained. Solutions were computed for several values of vortex circulation, Reynolds number and throat/inlet area ratio, under the assumptions of steady flow, rotational symmetry and frictionless flow at the pipe wall. When the Reynolds number is sufficiently large, vortex breakdown occurs abruptly with increased circulation as a result of the existence of non-unique solutions. Solution paths for Reynolds numbers exceeding approximately 1000 are characterized by an ensemble of three inviscid flow types: columnar (for pipes of constant radius), soliton and wavetrain. Flows that are quasi-cylindrical and which do not exhibit vortex breakdown exist below a critical circulation, dependent on the Reynolds number and the throat/inlet area ratio. Wavetrain solutions are observed over a small range of circulation below the critical circulation, while above the critical value, wave solutions with large regions of reversed flow are found that are primarily solitary in nature. The quasi-cylindrical (QC) equations first fail near the critical value, in support of Hall's theory of vortex breakdown (1967). However, the QC equations are not found to be effective in predicting the spatial position of the breakdown structure.
|Additional Information:||© 1992 Cambridge University Press. Received December 7 1990. Revised January 10 1992. We gratefully acknowledge the support of the Air Force Office of Scientific Research through grant 2301-D2 and the supercomputer resources provided by the Ohio Supercomputer Center through Grant PIS003-1. We would also like to thank the editor and referees for their helpful contributions, especially in the formulation of the pipe wall boundary conditions on vorticity.|
|Group:||Guggenheim Jet Propulsion Center|
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|Official Citation:||The role of non-uniqueness in the development of vortex breakdown in tubes Journal of Fluid Mechanics (1992), 242: 491-527 Cambridge University Press doi: 10.1017/S0022112092002477|
|Usage Policy:||No commercial reproduction, distribution, display or performance rights in this work are provided.|
|Deposited By:||Ruth Sustaita|
|Deposited On:||29 Nov 2010 18:52|
|Last Modified:||26 Dec 2012 12:41|
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