根据降落伞的结构和其在充气过程中的受力特性,以某平面圆形伞为原型,建立了伞衣充气过程中的计算流体力学与结构动力学耦合模型。并采用七孔探针对充满状态的绕流流场进行了定量测量,将该状态的试验结果和计算结果进行对比分析,二者的拓扑结构非常相似,压差系数也相差不大,因此所采用的数学模型是可靠的。在此基础上,对整个充气阶段的流场进行了数值模拟和分析,以详细了解降落伞整个开伞过程中伞衣外形变化及伞衣内外流场的变化情况。研究结果表明:①在初始充气阶段,伞衣展开部分外形基本保持较光滑的直筒形状,而非喇叭形。在主充气阶段:空气首先在伞衣顶部聚集,使伞衣顶部膨胀,然后膨胀部分向伞衣底边扩展,直到伞衣完全张满。②当伞顶孔被气流冲开后,伞衣的结构透气性对流场会产生显著影响。但从内外压力系数的变化来看,透气性对伞衣内滞止压力的影响较小,对伞衣外流场结构的影响较大,从而对伞衣外表面的压力影响较大。③对于此类有伞顶孔的平面圆形伞,当伞衣充气张开后,伞衣尾部出现气流分离,在一个漩涡区内形成两个相反旋转方向的漩涡。且随着伞衣直径扩张,分离区扩大,主流对漩涡区的剪切面积增大,因此漩涡区两个漩涡中外侧的一个漩涡增大,内侧漩涡被挤压至离伞顶更近的区域。 According to the structure of the parachute and the force characteristics of the parachute in inflatable process, a plane circular umbrella is taken as a prototype to establish a coupled model of computational fluid dynamics and structural dynamics in the process of inflating the umbrella canopy. A seven-hole probe was used to quantitatively measure the flow around a full flow field. The test results and calculation results were compared. The topologies of the two were very similar and the pressure difference coefficients were similar The mathematical model used is reliable. On this basis, the numerical simulation and analysis of the flow field during the entire inflatable phase were carried out to understand the changes of the overall shape of the parachute and the flow field inside and outside the parachute during the entire parachute. The results show that: ①In the initial stage of inflation, the shape of the unfolded part of the umbrella garment basically maintains a relatively smooth straight shape instead of a flared shape. In the main inflatable phase: the air first gathered in the top of the umbrella suit, so that the top of the umbrella suit was expanded, and then the expanded part of the umbrella suit was expanded to the bottom until the umbrella suit was fully covered. ② When the umbrella top hole is opened by the airflow, the structure of the umbrella clothing permeability permeability will have a significant impact. However, from the change of internal and external pressure coefficients, the permeability has little effect on the stagnation pressure in the umbrella garment, which has a great influence on the structure of the flow field in the umbrella garment, which exerts a great influence on the pressure on the external surface of the umbrella garment. ③ For such a flat circular umbrella with an umbrella hole, when the umbrella clothing is inflated, airflow separation occurs at the tail of the umbrella clothing, and two vortexes of opposite rotation directions are formed in a whirlpool zone. And with the expansion of the diameter of the canopy, the separation area is enlarged and the shear area of ​​the vortex area is increased by the mainstream. Therefore, one vortex in the outer vortex of the vortex area increases and the inner vortex is squeezed to the area closer to the roof .