Numerical study on shock-dusty gas cylinder
interaction
Jingyue Yin;Juchun Ding;Xisheng Luo;Xin Yu
【期刊名称】《力学学报:英文版》 【年(卷),期】2019(035)004
【摘要】The interaction of a planar shock wave with a dusty-gas cylinder is numerically studied by a compressible multi-component solver with an adaptive mesh refinement technique.The influence of non-equilibrium effect caused by the particle relaxation,which is closely related to the particle radius and shock strength,on the evolution of particle cylinder is emphasized.For a very small particle radius,the particle cloud behaves like an equilibrium gas cylinder with the same physical properties as those of the gas-particle mixture.Specifically,the transmitted shock converges continually within the cylinder and then focuses at a region near the downstream interface,producing a local high-pressure zone followed by a particle jet.Also,noticeable secondary instabilities emerge along the cylinder edge and the evident particle roll-up causes relatively large width and height of the shocked cylinder.As the particle radius increases,the flow features approach those of a frozen flow of pure air,e.g.,the transmitted shock propagates more quickly with a weaker strength and a smaller curvature,resulting in an increasingly weakened shock focusing and particle jet.Also,particles
Numerical study on shock-dusty gas cylinder interaction
