Calculation of shock wave propagation in water containing reactive gas bubbles View Full Text


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Article Info

DATE

2017-03

AUTHORS

K. A. Avdeev, V. S. Aksenov, A. A. Borisov, D. G. Sevastopoleva, R. R. Tukhvatullina, S. M. Frolov, F. S. Frolov, I. O. Shamshin, B. Basara, W. Edelbauer, K. Pachler

ABSTRACT

The entry of a shock wave from air into water containing reactive gas (stoichiometric acetylene–oxygen mixture) bubbles uniformly distributed over the volume of the liquid has been numerically investigated using equations describing two-phase compressible viscous reactive flow. It has been demonstrated that a steady-state supersonic self-sustaining reaction front with rapid and complete fuel burnout in the leading shock wave can propagate in this bubbly medium. This reaction front can be treated as a detonation-like front or “bubble detonation.” The calculated and measured velocities of the bubble detonation wave have been compared at initial gas volume fraction of 2 to 6%. The observed and calculated data are in satisfactory qualitative and quantitative agreement. The structure of the bubble detonation wave has been numerically studied. In this wave, the gas volume fraction behind the leading front is approximately 3–4 times higher than in the pressure wave that propagates in water with air bubbles when the other initial conditions are the same. The bubble detonation wave can form after the penetration of the shock wave to a small depth (~300 mm) into the column of the bubbly medium. The model suggested here can be used to find optimum conditions for maximizing the efficiency of momentum transfer from the pressure wave to the bubbly medium in promising hydrojet pulse detonation engines. More... »

PAGES

261-271

References to SciGraph publications

  • 2015-05. Numerical simulation of momentum transfer from a shock wave to a bubbly medium in RUSSIAN JOURNAL OF PHYSICAL CHEMISTRY B
  • 2015-11. Momentum transfer from a shock wave to a bubbly liquid in RUSSIAN JOURNAL OF PHYSICAL CHEMISTRY B
  • 2007-11. Bubble detonation as a self-sustained solitary wave with energy release in COMBUSTION, EXPLOSION, AND SHOCK WAVES
  • 1996. Computational Methods for Fluid Dynamics in NONE
  • Identifiers

    URI

    http://scigraph.springernature.com/pub.10.1134/s1990793117020142

    DOI

    http://dx.doi.org/10.1134/s1990793117020142

    DIMENSIONS

    https://app.dimensions.ai/details/publication/pub.1085572453


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