Structure overset grid method and its applications to simulation of multi-body separation 被引量：2

Structure overset grid method and its applications to simulation of multi-body separation

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摘要 This paper proposes an automatic structure overset grid method, which utilizes the hole-surface optimization with one-step searching, wall-surface grid oversetting, and dynamic overset grid approaches to achieve the high adaptability of overset grids for complex multi-body aircrafts. Specifically, based on the automatic structure overset grids, the method first solves the coupling of Navier-Stokes(N-S) unsteady flow equation and 6DOF motion equation, and establishes the multi-body collision model. Then, the numerical simulation of unsteady flow for complex aircrafts' multi-body separation, the simulation of multi-body separating trajectory and the separation safety analysis are accomplished. Thus, the method can properly handle practical engineering problems including the wing/drop tank separation, aircraft/mount separation, and cluster bomb projection. Experiments show that our numerical results match well with experimental results, which demonstrates the effectiveness of our methods in solving the multi-body separation problem for aircrafts with complex shapes. This paper proposes an automatic structure overset grid method, which utilizes the hole-surface optimization with one-step searching, wall-surface grid oversetting, and dynamic overset grid approaches to achieve the high adaptability of overset grids for complex multi-body aircrafts. Specifically, based on the automatic structure overset grids, the method first solves the coupling of Navier-Stokes（N-S） unsteady flow equation and 6DOF motion equation, and establishes the multi-body collision model. Then, the numerical simulation of unsteady flow for complex aircrafts’ multi-body separation, the simulation of multi-body separating trajectory and the separation safety analysis are accomplished. Thus, the method can properly handle practical engineering problems including the wing/drop tank separation, aircraft/mount separation, and cluster bomb projection. Experiments show that our numerical results match well with experimental results, which demonstrates the effectiveness of our methods in solving the multi-body separation problem for aircrafts with complex shapes.

作者 ZHANG HaiRui FAN JingJing YUAN Wu ZHANG WeiHua

机构地区 College of Aerospace Science and Engineering China Academy of Lanch Vehicle Technology Supercomputing Center

出处《Science China(Physics,Mechanics & Astronomy)》 SCIE EI CAS CSCD 2015年第9期68-75,共8页 中国科学：物理学、力学、天文学（英文版）

关键词多体分离网格方法结构仿真应用嵌套网格非定常流动表面优化 dynamic overset grids multi-body separations CFD

分类号 V211 [航空宇航科学与技术—航空宇航推进理论与工程] O241.8 [理学—计算数学]

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