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Study of parachute inflation process using fluid–structure interaction method 被引量:14
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作者 Yu Li Cheng Han +1 位作者 Zhan Ya'nan Li Shaoteng 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2014年第2期272-279,共8页
A direct numerical modeling method for parachute is proposed firstly, and a model for the star-shaped folded parachute with detailed structures is established. The simplified arbitrary Lagrangian-Eulerian fluid struct... A direct numerical modeling method for parachute is proposed firstly, and a model for the star-shaped folded parachute with detailed structures is established. The simplified arbitrary Lagrangian-Eulerian fluid structure interaction (SALE/FSI) method is used to simulate the infla- tion process of a folded parachute, and the flow field calculation is mainly based on operator split- ting technique. By using this method, the dynamic variations of related parameters such as flow field and structure are obtained, and the load jump appearing at the end of initial inflation stage is cap- tured. Numerical results including opening load, drag characteristics, swinging angle, etc. are well consistent with wind tunnel tests. In addition, this coupled method can get more space-time detailed information such as geometry shape, structure, motion, and flow field. Compared with previous inflation time method, this method is a completely theoretical analysis approach without relying on empirical coefficients, which can provide a reference for material selection, performance optimi- zation during parachute design. 展开更多
关键词 Empirical formula Fluid-structure interaction inflation process Opening shockiParachute Wind tunnel test
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