Plume Interference Effect on a Missile Body and Its Control

미사일 동체에서 발생하는 Plume 간섭 효과와 제어

  • Lim, Chae-Min (School of Mech. Engineering, Andong National Univ.) ;
  • Lee, Young-Ki (Aeronautical Engineering, Queen's Univ. of Belfast) ;
  • Kim, Heuy-Dong (Aeronautical Engineering, Queen's Univ. of Belfast) ;
  • Szwaba, Ryszard (School of Mech. Engineering, Andong National Univ.)
  • Published : 2003.04.23

Abstract

The plume-induced shock wave is a complex phenomenon, consisting of plume-induced boundary layer separation, separated shear layer, multiple shock waves, and their interactions. The knowledge base of plume interference effect on powered missiles and flight vehicles is not yet adequate to get an overall insight of the flow physics. Computational studies are performed to better understand the flow physics of the plume-induced shock and separation particularly at high plume to exit pressure ratio. Test model configurations are a simplified missile model and two rounded and porous afterbodies to simulate moderately and highly underexpanded exhaust plumes at the transonic/supersonic speeds. The result shows that the rounded afterbody and porous wall attached at the missile base can alleviate the plume-induced shock wave phenomenon, and improve the control of the missile body.

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