Vortex Cavitation

Part of the Fluid Mechanics and Its Applications book series (FMIA, volume 76)


Chord Length Vortex Tube Cavitation Number Nucleus Density Vortex Strength 
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  1. Arndt R.E.A. & Dugué C. —1992— Recent advances in tip vortex cavitation research. Proc. Int. Symp. on Propulsors and Cavitation, Hamburg (Germany), June, 22–25.Google Scholar
  2. Batchelor G.K. —1967— An introduction to fluid dynamics. Cambridge University Press.Google Scholar
  3. Boulon O., Franc J.P. & Michel J.M. —1997— Tip vortex cavitation on an oscillating hydrofoil. J. Fluids Eng.119, 752–758.CrossRefGoogle Scholar
  4. Boulon O., Callenaere M., Franc J.P. & Michel J.M. —1999— An experimental insight in to the effect of confinement on tip vortex cavitation of an elliptical hydrofoil. J. Fluid Mech.390, 1–23.ADSCrossRefzbMATHGoogle Scholar
  5. Briançon-Marjollet L. & Michel J.M. —1990— The hydrodynamic tunnel of I.M.G.: former and recent equipment. J. Fluids Eng.112, 338–342.CrossRefGoogle Scholar
  6. Chahine G.L. & Genoux P.F. —1983— Collapse of a cavitating vortex ring. J. Fluids Eng.105, 400–405.CrossRefGoogle Scholar
  7. Farrell K.J. & Billet M.L. —1994— A correlation of leakage vortex cavitation in axial-flow pumps. J. Fluids Eng.116, 551–557.CrossRefGoogle Scholar
  8. Franc J.P. —1982— Étude de cavitation. Sillage cavitant ďobstacles épais. PhD Thesis, Institut National Polytechnique de Grenoble (France), 66–121.Google Scholar
  9. Fruman D.H., Cerrutti P., Pichon T & Dupont P. —1995— Effect of hydrofoil planform on tip vortex roll-up and cavitation. J. Fluids Eng.117, 162–169.CrossRefGoogle Scholar
  10. Fruman D.H., Dugué C. & Cerrutti P. —1991— Tip vortex roll-up and cavitation. ASME Cavitation and Multiphase Flow Forum, FED 109, 43–48.Google Scholar
  11. Fruman D.H., Dugué C. & Cerrutti P. —1992a— Enroulement et cavitation de tourbillon marginal. Revue Scientifique et Technique de la Défense, 133–141.Google Scholar
  12. Fruman D.H., Dugué C., Pauchet A., Cerrutti P. & Briançon-Marjollet L. —1992b— Tip vortex roll-up and cavitation. Proc. 19thInt. Symp. on Naval Hydrodynamics, Seoul (Korea), August, 24–28.Google Scholar
  13. Genoux P. & Chahine G.L. —1983— Équilibre statique et dynamique ďun tore de vapeur tourbillonnaire. J. Méc. Théor. Appl.2, 829–857.zbMATHGoogle Scholar
  14. Gearhart W.S. & Ross J.R. —1991— Tip leakage effects. J. Fluids Eng.109, 159–164.Google Scholar
  15. Laborde R., Chantrel P., Retailleau A., Mory M. & Boulon O. —1995— Tip clearance cavitation in an axial flow pump. Proc. Int. Symp. on Cavitation, Deauville (France), 173–180.Google Scholar
  16. Lamb H. —1932— Hydrodynamics. Cambridge University Press, London and New York.zbMATHGoogle Scholar
  17. Ligneul P. —1989— Theoretical tip vortex cavitation inception threshold. Eur. J. Mech. B/Fluids8, 495–521.zbMATHGoogle Scholar
  18. Ligneul P. & Latorre R. —1989— Study on the capture and noise of spherical nuclei in the presence of the tip vortex of hydrofoils and propellers. Acoustica68, 1–14.zbMATHGoogle Scholar
  19. Mccormick B.W. —1962— On vortex produced by a vortex trailing from a lifting surface. J. Basic Eng., September, 369–379.Google Scholar
  20. Milne-Thomson L.M. —1968— Theoretical hydrodynamic, 5th ed. Macmillan, 377–380.Google Scholar
  21. Maines B.H. & Arndt R.E.A. —1993— Bubble dynamics of cavitation inception in a wing tip vortex. ASME, FED 153, 93–97.Google Scholar
  22. Maines B.H. & Arndt R.E.A. —1997— Tip vortex formation and cavitation. J. Fluids Eng.119, 413–419.CrossRefGoogle Scholar
  23. Pauchet A., Briançon-Marjollet L. & Fruman D.H. —1993— Recent results on the effect of cross-section on hydrofoil tip vortex cavitation occurrence at high Reynolds numbers. ASME, FED 153, 81–86.Google Scholar
  24. auchet A., Briançon-Marjollet L., Gowing S., Cerrutti P. & Pichon T. —1994— Effects of foil size and shape on tip vortex cavitation occurrence. Proc. 2ndInt. Symp. on Cavitation, Tokyo (Japan), April, 133–139.Google Scholar
  25. Stinebring D.R., Farrell K.J. & Billet M.L. —1991— The structure of a threedimensional tip vortex at high Reynolds numbers. J. Fluids Eng.113, 496–503.CrossRefGoogle Scholar
  26. Westwater F.L. —1936— Aero. Res. Coun., Rpt and Mem. no 1692.Google Scholar

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