Research on hydrodynamic properties of annular cavitator with water injection

1. Savchenko Y.N.: Supercavitation - problems and perspectives. In: CAV2001.; 2002.Search in Google Scholar

2. Ashley S.: Warp Drive Underwater. Scientific American Special Online Issue, 2002.Search in Google Scholar

3. Stinebring D.R., Cook R.B., Dzielski J.E., Kunz R.F.: High-Speed Supercavitating Vehicles. In: AIAA Guidance, Navigation, and Control Conference and Exhibit. Keystone, Colorado, USA; 2006.Search in Google Scholar

4. Kam W.N.: Overview of the ONR Supercavitating High-SpeedBodies Program. In: AIAA Guidance, Navigation, and Control Conference and Exhibit. Keystone, Colorado, USA; 2006.Search in Google Scholar

5. Garabedian P.R.: The principle of independence of the cavitysection expansion(Logvinovich's principle) as the basis forinvestigation on cavitation flows. In: RTO/NATO Lecture Series 005 Supercavitating Flows. France; 2002.Search in Google Scholar

6. Logvinovich G.V.: Hydrodynamics of flows with freeboundaries: Halsted Press; 1973.Search in Google Scholar

7. Savchenko Y.N.: Experimental investigation of supercavitatingmotion of bodies. In: RTO/NATO Lecture Series 005 Supercavitating Flows. France; 2002.Search in Google Scholar

8. Semenenko V.N.: Artificial supercavitation. physics andcalculation. In: RTO/NATO Lecture Series 005 Supercavitating Flows. France; 2002.Search in Google Scholar

9. Sedov L.I.: Mechanics of Continuum. Moscow: Nauka Publishing House; 1976.Search in Google Scholar

10. Owis F.M., Nayfeh A.H.: A compressible multi-phase flow solverfor the computation of the supercavitation over high-speedtorpedo. In: 40th A1AA Aerospace Sciences Meeting & Exhibit. Reno, NV, US; 2002.10.2514/6.2002-875Search in Google Scholar

11. Owis F.M., Nayfeh A.H.: Numerical simulation of super- andpartially-cavitating flows over an axisymmetric projectile. In: 39th AIAA Aerospace Sciences Meeting & Exhibit. Reno, NV, US; 2001.10.2514/6.2001-1042Search in Google Scholar

12. Kinzel M.P., Lindau J.W., Kunz R.F.: Free-surface proximityeffects in developed and super-cavitation. In: DoD HPCMP Users Group Conference, 2008.Search in Google Scholar

13. Seif M.S., Asnaghi A., Jahanbakhsh E.: Drag force on a flatplate in cavitating flows. Polish Maritime Research, 2009.10.2478/v10012-008-0028-2Search in Google Scholar

14. Kuklinski R., Fredette A., Henoch C., Castano J.: ExperimentalStudies in the Control of Cavitating Bodies. In: Guidance, Navigation, and Control Conference and Exhibit. Keystone, Colorado, USA: AIAA; 2006.10.2514/6.2006-6443Search in Google Scholar

15. Choi J.H., Penmetsa R.C., Grandhi R.V.: Shape Optimization ofthe Cavitator for a Supercavitating Torpedo. Struct Multidisc Optim, 2005.10.1007/s00158-004-0466-0Search in Google Scholar

16. Shafaghat R., Hosseinalipour S.M.: Shape Optimization of Two-Dimensional Cavitators in Supercavitating Flows, Using NSGAII Algorithm. Appl. Ocean Res., 2008.10.1016/j.apor.2009.02.005Search in Google Scholar

17. Lin M., Hu F., Zhang W.: Optimal Design of Conical Cavitatorof Supercavitating Vehicles. Journal of National University of Defense Technology, 2010.Search in Google Scholar

18. Savchenko Y.N.: Supercavitating object propulsion. In: RTO/ NATO Lecture Series 005 Supercavitating Flows. France; 2002.Search in Google Scholar

19. Miller T.F., Herr J.D.: Green Rocket Propulsion by Reactionof Al and Mg Powders and Water. In: 40th AIAA/ASME/ SAE/ASEE Joint Propulsion Conference and Exhibit. Fort Lauderdale, Florida; 2004.10.2514/6.2004-4037Search in Google Scholar