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Numerical solution to the plane heat-mass transfer problem in a system of focused radiation flux-liquid condensed substance film-oxidizer

Abstract

The plane problem of heat and mass transfer in a focused radiation flux-liquid condensed substance film-oxidizer system is numerically solved. Peculiarities of heat and mass transfer at radiation energy absorption by a vapor-gas mixture near the liquid surface are analyzed. The influence of the radiation density distribution in a flux and the liquid and oxidizer parameters on the conditions of heat and mass transfer is assessed.

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Correspondence to O. V. Vysokomornaya.

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Vysokomornaya, O.V., Kuznetsov, G.V. & Strizhak, P.A. Numerical solution to the plane heat-mass transfer problem in a system of focused radiation flux-liquid condensed substance film-oxidizer. J. Engin. Thermophys. 20, 34–41 (2011). https://doi.org/10.1134/S1810232811010036

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Keywords

  • Ignition Delay
  • Strouhal Number
  • Ignition Time Delay
  • Engineer THERMOPHYSICS
  • Fuel Vapor