In this study, the missile staging process by implementing a side-injected jet is simulated numerically. The problem is considered to be axisymmetric and the thin shear layer approximation of Navier-Stokes equations along with an algebraic turbulence model is used in a quasi-static form for the calculations. The free stream corresponds to a very high altitude flight condition with a Mach number of 10 and an injected jet pressure ratio of about 63000. An explicit Godunov-type scheme is used in the calculations, which is second-order in time and space. Computations are performed on the attached and separated geometry for a range of distances between the body and the warhead. The intense interactions between the jet flow and the main free-stream and its overall influences on the warhead aerodynamic loading are finally demonstrated.
Keywords: Missile Staging, Jet Interaction flow, TVD Scheme, Riemann problem
A. R. Pishehvar and H. Ahmadi Kia, (2001). Quasi-Static Numerical Simulation of Missile Staging. Journal of Computational Methods in Engineering, 20(2), 141-152.
MLA
A. R. Pishehvar and H. Ahmadi Kia. "Quasi-Static Numerical Simulation of Missile Staging", Journal of Computational Methods in Engineering, 20, 2, 2001, 141-152.
HARVARD
A. R. Pishehvar and H. Ahmadi Kia, (2001). 'Quasi-Static Numerical Simulation of Missile Staging', Journal of Computational Methods in Engineering, 20(2), pp. 141-152.
VANCOUVER
A. R. Pishehvar and H. Ahmadi Kia, Quasi-Static Numerical Simulation of Missile Staging. Journal of Computational Methods in Engineering, 2001; 20(2): 141-152.