Single Bubble, Cumulative Effects and Chemical Reactions

1. R.I. Soloukhin: About Gas Bubble Pulsation in Incompressible Liquid, Proceedings of the Scientific Council for Economic Use of Explosion 18, pp. 21–25 (1961)

   Google Scholar 

2. V.K. Kedrinskii: Features of the Spherical Gas Bubble Dynamics in Liquid, Zh. Prikl. Mekh. i Tekhn. Fiz. 8,3, pp. 120–125 (1967)

   Google Scholar 

3. V.K. Kedrinskii: Shock-wave compression of a gas cavity in water: MSc Thesis, Lavrentyev Institute of Hydrodynamics, Leningrad Polytechnic Institute (1960)

   Google Scholar 

4. V.K. Kedrinskii, R.I. Soloukhin: Collapse of a Spherical Gas Cavity in Water by Shock Wave, Zh. Prikl. Mekh. i Tekhn. Fiz. 2,1, pp.27–29 (1961)

   Google Scholar 

5. R.I. Soloukhin: About Bubble Mechanism of Shock Inflammation in Liquid, Dokl. Akad. Nauk SSSR 136,2 (1960)

   Google Scholar 

6. S.G. Zaitsev, R.I. Soloukhin: To Question About an Inflammation of Adiabatic Heated Gas Mixture, Dokl. Akad. Nauk SSSR 112,6 (1958)

   Google Scholar 

7. H. Poritsky: The collapse or growth of a spherical bubble or cavity in a viscous fluid. In: Proc. 1st US Nat. Congress on Appl. Mech., (1952) pp. 822

   Google Scholar 

8. S.S. Shu: Note on the collapse of a spherical cavity in a viscous incompressible fluid. In: Proc. 1st US Nat. Congress on Appl. Mech. (1952)

   Google Scholar 

9. E.I. Zababakhin: Filling of Bubbles in Viscous Liquid, Appl. Math. Mech. 246 (1960)

   Google Scholar 

10. A.D. Pernik: Cavitation Problems (Leningrad, Sudostroenie, 1966)

    Google Scholar 

11. C. Hunter: On the Collapse of an Empty Cavity in Water, J. Fluid Mech. 8, p. 241 (1960)

    Google Scholar 

12. C. Herring: Theory of Pulsation of the Gas Bubble Produced by an Underwater Explosion, OSRD Rep. No. 236 (1941)

    Google Scholar 

13. G. Flinn: Physics of acoustic cavitation in liquids. In: W. Mason (ed.) Physical Acoustics, vol. 1, part B, (1966) pp. 7–138

    Google Scholar 

14. V.K. Kedrinskii: Hydrodynamics of Explosion, Zh. Prikl. Mekh. i Tekhn. Fiz. 28,4, pp. 23–48 (1987)

    Google Scholar 

15. V.K. Kedrinskii, F.N. Zamarayev: Wave amplification in reactive bubble media (plenary lecture). In: Proc. 17th Int. Symp. on Shock Tubes and Waves, ed. by W. Yong (1989) pp. 51–62

    Google Scholar 

16. V.K. Kedrinskii, Ch. Mader: Accidental detonation in bubbly liquids. In: H. Gronig (ed.) Proc. 16th Int. Symp. on Shock Tubes and Waves, (1987) pp. 371–376

    Google Scholar 

17. A.A. Vasiliev, Yu.A. Nikolaev: Closed Theoretical Model of a Detonation Shell, Acta Astraun. 5, pp. 983–986 (1978)

    Article  Google Scholar 

18. A.A. Vasiliev, A.I. Valishev, V.A. Vasiliev et al: Parameters of Detonation Waves at Increased Pressure and Temperature, Chem. Phys. 16,9, pp. 113–117 (1997)

    Google Scholar 

19. A.A. Vasiliev, V.K. Kedrinskii, S.P. Taratuta: Dynamics of Single Bubble with Chemically Reactive Gas, Fiz. Goren. Vzryva 34,2, pp. 121–124 (1998)

    Google Scholar 

20. F.P. Bowden, A.D. Yoffe: Fast Reaction in Solid (Butterworths Sci. Publ., London, 1958)

    Google Scholar 

21. K.K. Andreev: Some Consideration on the Mechanism of Initiation of Detonation in Explosive, Proc. Roy. Soc. London A 246, pp. 257–267 (1958)

    Google Scholar 

22. C.H. Johansson: The Initiation of Liquid Explosives by Shock and the Importance of Liquid Break-Up, Proc. Roy. Soc. London A 246 (1958)

    Google Scholar 

23. A.V. Pinaev, A.I. Sychev: Discovery and Study of Self-Sustaining Regimes of Detonation in the Systems of Liquid Fuel-Bubble of Oxidizer, Dokl. Akad. Nauk SSSR 290,3, pp. 611–615 (1986)

    Google Scholar 

24. A.V. Pinaev, A.I. Sychev: Structure and Properties of Detonation in the Systems “Liquid-Gas Bubbles”, Fiz. Goren. Vzryva 22,3, pp. 109–118 (1986)

    Google Scholar 

25. A.V. Dubovik, V.K. Bobolev: Shock Sensitivity of Liquid Systems (Nauka, Moscow, 1978)

    Google Scholar 

26. V.K. Kedrinskii, P.A. Fomin, S.P. Taratuta: Dynamics of Single Bubble in a Liquid at Chemical Reactions and Interface of Heat-Mass Exchange, Zh. Prikl. Mekh. i Tekhn. Fiz. 40,2, pp. 119–127 (1999)

    Google Scholar 

27. D.R. White: Density induction times in very lean mixture of D₂, H₂, C₂, C₂H₂ and C₂H₄ with O₂, In: XI Int. Symp. on Combustion (Academic Press, Pittsburgh, 1967) pp. 147–154.

    Google Scholar 

28. Yu.A. Nikolaev, P.A. Fomin: Approximate Kinetic Equation for Heterogenic Systems of Gas-Condensed Phase Type, Fiz. Goren. Vzryva 19,6, pp. 49–58 (1983)

    Google Scholar 

29. Yu.A. Nikolaev, D.V. Zak: Coordination of Chemical Reaction Models in Gas with Second Law of Thermodynamics, Fiz. Goren. Vzryva 24,4, pp. 87–90 (1988)

    Google Scholar 

30. P.A. Fomin, A.V. Trotsyuk: Approximated Calculation of Isotropy of Chemically Balanced Gas, Fiz. Goren. Vzryva 31,4, pp. 59–62 (1995)

    Google Scholar 

31. A.V. Trotsyuk, P. A Fomin: Model of Bubbly Detonation, Fiz. Goren. Vzryva 28,4, pp. 129–136 (1992)

    Google Scholar 

32. I.S. Grigoriev, E.Z. Meilikhova (eds.): Physical Quantities: Handbook, (Energoatomizdat, Moscow, 1991)

    Google Scholar 

33. F.N. Zamaraev, V.K. Kedrinskii, Ch. Mader: Waves in Chemically Active Bubble Medium, Zh. Prikl. Mekh. i Tekhn. Fiz. 31,2, pp. 20–26 (1990)

    Google Scholar 

34. S. Lambarais, L. Kombs: Detonation and Two-Phase Flow (Mir, Moscow, 1966)

    Google Scholar 

Download references