BY : Aerospatiale - J F Chauvot

Small scale experiments were carried out in which a mock-up of a missile was held in position in the canister with the motor ignited.
PHOENICS has been used to simulate these experiments as an axisymmetric, unsteady, turbulent and reacting flow
k-e turbulence model and a diffusion flame model were used.

PHOENICS was used after a second order Euler inviscid code gave unexplained differences with the experimental data.
The results are compared with experimental pressure and velocity data.
Some computations were carried out without turbulence to study the way in which turbulence modifies this specific flow.

The pictures are as follows:

Without turbulence, PHOENICS gave similar results to the Euler code, i.e. much higher than the experimental results at the head-end.
This is emphasised by the difference in the velocity fields shown in Figure 5.
When turbulence is added to the simulation, the PHOENICS results show good agreement with the experiments.
This computation illustrates how PHOENICS can improve knowledge of complex flows. The simulations give a good insight of physical phenomena which occur inside the canister of a ballistic missile.

Full details of the PHOENICS simulation and the experimental results may be obtained in:

CFD with PHOENICS at Aerospatiale, Espace & Defense An Overview

J F Chauvot

Presented at the 5th International PHOENICS User Conference, Nice, September 1992. Published in the International PHOENICS Journal Vol 6, No 3 1993.

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