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Aerodynamic Heating Analysis of Spike-Nosed Missile  

Jung Suk Young (Agency for Defense Development)
Yoon Sung Joon (Agency for Defense Development)
Byon Woosik (Agency for Defense Development)
Ahn Chang Soo (Agency for Defense Development)
Publication Information
Journal of the Korea Institute of Military Science and Technology / v.7, no.3, 2004 , pp. 21-29 More about this Journal
Abstract
Numerical analysis of aerodynamic heating for KPSAM is performed using aerodynamic heating model suitable to KPSAM, which has complex flow field resulting from the spike attached to the dome, such as large separation area and the strong shock/boundary layer interaction region around reattachment point on the dome. The aerodynamic heating model is validated and modified through the comparison between the flight test measurement and the thermal analysis results. TFD temperature sensors are installed on the dome to measure surface temperature during the flight. Computation results, obtained from the heat transfer analysis on the sensors, agree well with flight test data. The aerodynamic heating model provides heat transfer rate into surface as a boundary condition of unsteady 1D/axisymmetric thermal analysis on the missile structure. The axisymmetric thermal analysis using FLUENT is more versatile than the 1D analysis and can be applied to the heating problem related with complex structures and multi-dimensional heat transfer problems such as prediction of temperature rise at contact surface of different materials.
Keywords
공력가열;충격파/경계층 간섭;대류 열전달;비정상 열전달해석;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Hayes , J. R. and Neumann, R. D., 'Introduction to the Aerodynamic Heating Analysis of Supersonic Missiles', Tactical Missile Aerodynamics: Prediction Methodology, Progress in Astronautics and Aeronautics, Vol. 142, AIAA, 1991, pp.63-114
2 Cebeci, T. and Bradshaw, P., Momentum Transfer in Boundary Layers, Hemisphere Publishing Corporation and McGraw- Hill Book Company, 1977
3 Chang, P. K., Separation of Flow, KIST, 1979, pp.685
4 정석영,윤성준,'신궁유도탄의 공력 가열 해석',연구보고서, MADC-416-010370, 국방과학연구 소,2001
5 Anderson, J. D. Jr, Hypersonic and High Temperature Gas Dynamics, McGraw-Hill Book Company, 1989
6 윤성준, 엄기청, 오송빈, “PSAM 공력특성 분 석" 연구보고서, MSDC-416-971393, 국방과학 연구소, 1997
7 Schlichting, H., Boundary Layer Theory translated by Kestin, J. 7th edition, McGrawHill Book Company, Rhode Island, 1985
8 Truitt, R. W., Fundamentals of Aerodynamic Heating, The Ronald Press Company, New York, 1960
9 FLUENT5 User's Guide, Vol. 4, FLUENT Inc., 1998, pp.24-1-24-61
10 Poll, D. I. A., 'An Introduction to the Problem of Aerodynamic Heating' Aeronautical Engineering Internal Report 8901