Time-Accurate Numerical Prediction of Free Flight Aerodynamics of Projectiles

2006 HPCMP Users Group Conference (HPCMP-UGC'06) Pub Date : 2006-06-26 DOI:10.1109/HPCMP-UGC.2006.72

J. Sahu

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引用次数: 3

Abstract

This paper describes a new multidisciplinary computational study undertaken to model the flight trajectories and the free flight aerodynamics of both finned projectile at supersonic velocities and a spinning projectile at subsonic speeds with and without aerodynamic flow control. Actual flight trajectories are computed using an advanced coupled computational fluid dynamics (CFD)/rigid body dynamics (RBD) technique. An advanced time-accurate Navier-Stokes computational technique has been used in CFD to compute the unsteady aerodynamics associated with the free flight of the finned projectile at supersonic speeds and the spinning projectile at subsonic speeds. Computed positions and orientations of the projectile have been compared with actual data measured from free flight tests and are found to be generally in good agreement. Predicted aerodynamics forces and moments also compare well with the forces and moments used in the six degree freedom fits of the results of the same tests. Unsteady numerical results obtained from the coupled method show the flow field, the aerodynamic forces and moments, and the flight trajectories of the projectile

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弹丸自由飞行空气动力学的时间精确数值预测

本文描述了一项新的多学科计算研究，用于模拟翅片弹丸在超音速下和旋转弹丸在亚音速下的飞行轨迹和自由飞行空气动力学。实际飞行轨迹采用先进的计算流体动力学(CFD)/刚体动力学(RBD)耦合技术进行计算。采用先进的时间精确Navier-Stokes计算技术，计算了翅片弹在超声速下和自旋弹在亚音速下自由飞行的非定常气动特性。计算出的弹丸位置和方向与自由飞行试验的实际测量数据进行了比较，发现两者基本吻合。预测的空气动力力和力矩也与同一试验结果的六自由度拟合中使用的力和力矩进行了很好的比较。耦合方法得到的非定常数值结果显示了弹体的流场、气动力和力矩以及飞行轨迹

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2006 HPCMP Users Group Conference (HPCMP-UGC'06)

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