CALCULATION OF AERODYNAMIC HEATING OF A CONICAL FOREBODY ALONG FLIGHT TRAJECTORY
Y., A., N., Z., K., S. (2011). CALCULATION OF AERODYNAMIC HEATING OF A CONICAL FOREBODY ALONG FLIGHT TRAJECTORY. EKB Journal Management System, 11(ASAT Conference, 17-19 May 2005), 3-18. doi: 10.21608/asat.2011.27136
Ahmed, M. Y.; Zayed, A. N.; Said, M. K.. "CALCULATION OF AERODYNAMIC HEATING OF A CONICAL FOREBODY ALONG FLIGHT TRAJECTORY". EKB Journal Management System, 11, ASAT Conference, 17-19 May 2005, 2011, 3-18. doi: 10.21608/asat.2011.27136
Y., A., N., Z., K., S. (2011). 'CALCULATION OF AERODYNAMIC HEATING OF A CONICAL FOREBODY ALONG FLIGHT TRAJECTORY', EKB Journal Management System, 11(ASAT Conference, 17-19 May 2005), pp. 3-18. doi: 10.21608/asat.2011.27136
Y., A., N., Z., K., S. CALCULATION OF AERODYNAMIC HEATING OF A CONICAL FOREBODY ALONG FLIGHT TRAJECTORY. EKB Journal Management System, 2011; 11(ASAT Conference, 17-19 May 2005): 3-18. doi: 10.21608/asat.2011.27136

CALCULATION OF AERODYNAMIC HEATING OF A CONICAL FOREBODY ALONG FLIGHT TRAJECTORY

International Conference on Aerospace Sciences and Aviation Technology
Article 1, Volume 11, ASAT Conference, 17-19 May 2005, May 2011, Page 3-18  XML PDF (2.15 MB)
Document Type: Original Article
DOI: 10.21608/asat.2011.27136
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Authors
Ahmed, M. Y.; Zayed, A. N.; Said, M. K.
Abstract
The phenomenon of aerodynamic heating is created as a consequence of body-flow interaction. It is originated from viscous flow characteristics inside the boundary layer in the vicinity of body. The adjacent flow temperature increases, leading to an increase in body wall temperature depending on flow regime, surrounding air density, body velocity, wall material, flight time, etc.. The present work provides an illustrative calculation procedure based on closed-form relations. A computer program was implemented to be used as a quick, easy, and accurate calculation tool for the expected wall temperature distribution and its variation with flight time for a conical fore-body during a complete flight at zero incidence. The code was applied on a number of real cases with a variety of flight conditions. Results were compared with
published and previous work and showed very good agreement.
Keywords
aerodynamic heating; boundary layer theory; viscous flow
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