基于ALE方法的群伞稳降阶段的数值模拟  被引量:4

Numerical Simulation of Cluster Parachute System During Steady-state Descent Phase Based on ALE Method

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作  者:连亮[1] 王中阳[1] 张红英[1] 秦福德 李方 

机构地区:[1]南京航空航天大学航空宇航学院,南京210016 [2]空降兵研究所,孝感432100

出  处:《航天返回与遥感》2014年第1期21-28,共8页Spacecraft Recovery & Remote Sensing

基  金:国家自然科学基金(11002070);航空科学基金(2010ZC52027)

摘  要:随着计算机技术和数值模拟的兴起,精确描绘降落伞力学特性成为可能。文章采用任意拉格朗日—欧拉法对美国"阿波罗"飞船降落伞回收系统的稳降阶段进行了数值模拟。通过建立结构动力学与计算流体力学的耦合模型,研究了3具环帆伞的流固耦合过程,并模拟了降落伞的外形变化和伞衣内外流场的变化。流固耦合计算结果表明,各伞最终稳定在20°左右,环帆伞的群伞效率因数约为0.93,比C-9伞大。文章的分析结果对中国探月工程回收系统的主伞设计具有参考意义。With the rise of computer technology and numerical simulation, it is possible to describe accu-rately the dynamic chatacteristics of parachute. Based on arbitrary Lagrangian-Eulerian method, the steady-state descent phase of parachute recovery system of Apollo spacecraft is numerically simulated. With the establishment of coupled model of structural dynamics and CFD(Computational Fluid Dynamics), the fluid-structure interaction study of three ring-sail parachutes was carried out, and the change of canopy shape and flow field is simulated. Results of Fluid-solid coupling calculation show that the parachute is steady around 20°, with the efficiency factor of cluster parachute system being about 0.93, which is bigger than that of C-9 parachute. This paper provides reference to the design of main parachute recovery system of Chinese Lunar Exploration Program.

关 键 词:降落伞 稳降阶段 流固耦合 任意拉格朗日-欧拉法 航天返回 

分 类 号:V445.2[航空宇航科学与技术—飞行器设计]

 

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