Numerical Simulation Intra-Chamber of Unsteady Turbulent Flows Stimulate. Part 1

Authors

  • A. M. Lipanov Author
  • S. Yu. Dadikina Author
  • A. A. Shumikhin Author
  • M. R. Koroleva Author
  • A. I. Karpov Author

Abstract

The technique of 3D internal unsteady turbulent flows simulation is proposed in this work, in particular the flow of combustion products into the solid fuel rocket engine. The system of governing equations describing the flow of viscous compressible gas written in the cylindrical coordinate system is presented. The computational algorithm based on a modified scheme of splitting vectors belonging to the class methods use Godunov approach is proposed. This algorithm is suitable for end-to-end calculation of the internal flow around all the paths of the rocket engine, including both subsonic flow in the chamber zone, and the zone of supersonic flow in nozzle. The simulation results of gas flow in the model rocket engine show oscillating shock wave processes the occurring into the engine chamber at the early stage. The time-stationary working mode engine is defined. .

Author Biographies

  • A. M. Lipanov
    Academician of the Russian Academy of Sciences, Doctor of Technical Sciences, Professor, Chief Researcher
  • S. Yu. Dadikina
    Research Assistant
  • A. A. Shumikhin
    Candidate of Physico-Mathematical Sciences, Researcher
  • M. R. Koroleva
    Candidate of Physico-Mathematical Sciences, Senior Researcher
  • A. I. Karpov
    Doctor of Physico-Mathematical Sciences, Chief Researcher

Published

2019-08-21

Issue

Vol. 12 No. 1 (2019)

Section

Mathematical Modelling