摘要
The growth of multi-mode Richtmyer-Meshkov instability under multiple impingements and the effect of initial shock strength on the growth of RMI are numerically investigated. We obtain the time evolution of turbulent mixing zone width for initial shock with different strength. The results show that the turbulent mixing zone width grows in a different manner at different stage but strictly in a similar way for the initial shock with different strength. Also, the initial shock strength has a significant effect on the growth rate of turbulent mixing zone width, especially before reshock, but can not change the growth laws in the whole process.
The growth of multi-mode Richtmyer-Meshkov instability under multiple impingements and the effect of initial shock strength on the growth of RMI are numerically investigated. We obtain the time evolution of turbulent mixing zone width for initial shock with different strength. The results show that the turbulent mixing zone width grows in a different manner at different stage but strictly in a similar way for the initial shock with different strength. Also, the initial shock strength has a significant effect on the growth rate of turbulent mixing zone width, especially before reshock, but can not change the growth laws in the whole process.
作者
Tao Wang
Jingsong Bai
Ping Li
Bing Wang
Lei Du
Gang Tao
Jiaxin Xiao
Tao Wang;Jingsong Bai;Ping Li;Bing Wang;Lei Du;Gang Tao;Jiaxin Xiao(Institute of Fluid Physics, China Academy of Engineering Physics, Mianyang, China;School of Energy and Power Engineering, Nanjing University of Science and Technology, Nanjing, China)
