摘要
在用拉格朗日方法模拟二维多介质可压缩流体的运动时,网格发生大变形往往是模拟不能正常进行下去的重要原因。网格动态局域重分可以有效改善网格的畸变程度,使计算得以持续。针对三角形计算网格提出了一种新的动态局域重分方法,包含"对角线交换""长边劈裂""短边融合"和"帽子戏法"4种基本操作,其中前3种操作不仅作用于同种介质内部,还可将其拓展到多介质界面处,与"帽子戏法"一起处理界面附近的大变形网格。在网格动态局域重分后,将旧网格上的物理量映射到新网格上,先计算出新三角形的质量和内能,再根据动量守恒和能量守恒对新三角形的格点速度及内能进行修正。利用该方法对冲击波与气泡相互作用和R-T不稳定性问题进行了数值模拟,取得了良好的效果。在R-T不稳定性算例中,采用同种介质和不同介质两种模型进行对比,模拟结果验证了该方法的有效性。
When simulating the two-dimensional multi-material compressible flows using the Lagrangian method,the distortion of the mesh is often the reason why the process terminates.The dynamic local remeshing is an option to relax the distortion.In this study,we combined the “diagonal-swapping”“edge-splitting”“edge-merging” and “hat-trick” to deal with the distortive mesh.The 4 operations could act not only in single material,but also be extended to the multi-material interface to deal with the distortive mesh on the interface.After the remeshing,the quantities on the old mesh are projected onto the new one.During this process,the mass,momentum and energy are kept conservative.We verified the effectiveness and accuracy of this method by using it to simulate the shock/bubble interaction and the R-T instability.In the R-T instability simulation,the single material and the multi-material models are applied to prove that this method is able to deal with the distortive mesh both inside the material and on the interface.
作者
赵海波
肖波
柏劲松
段书超
王刚华
阚明先
陈芳
ZHAO Haibo;XIAO Bo;BAI Jinsong;DUAN Shuchao;WANG Ganghua;KAN Mingxian;CHEN Fang(Institute of Fluid Physics,CAEP,Mianyang 621999,China)
出处
《高压物理学报》
EI
CAS
CSCD
北大核心
2018年第4期47-59,共13页
Chinese Journal of High Pressure Physics
基金
科学挑战计划(TZ2016001)
国家自然科学基金(11405167
11571293
11672276
11532012)
中国工程物理研究院科学技术发展基金(2015B0201023)
关键词
多介质流体
大变形运动
交错网格
网格动态局域重分
守恒重映
multi-material flow
large deformation motion
staggered grid
dynamic local remeshing
conservative remapping
