Domain decomposition hybrid method for numerical simulation of bluff body flows:theoretical model and application


Autoria(s): 凌国灿; Ling GP; 王运平
Data(s)

1992

Resumo

The discrete vortex method is not capable of precisely predicting the bluff body flow separation and the fine structure of flow field in the vicinity of the body surface. In order to make a theoretical improvement over the method and to reduce the difficulty in finite-difference solution of N-S equations at high Reynolds number, in the present paper, we suggest a new numerical simulation model and a theoretical method for domain decomposition hybrid combination of finite-difference method and vortex method. Specifically, the full flow. field is decomposed into two domains. In the region of O(R) near the body surface (R is the characteristic dimension of body), we use the finite-difference method to solve the N-S equations and in the exterior domain, we take the Lagrange-Euler vortex method. The connection and coupling conditions for flow in the two domains are established. The specific numerical scheme of this theoretical model is given. As a preliminary application, some numerical simulations for flows at Re=100 and Re-1000 about a circular cylinder are made, and compared with the finite-difference solution of N-S equations for full flow field and experimental results, and the stability of the solution against the change of the interface between the two domains is examined. The results show that the method of the present paper has the advantage of finite-difference solution for N-S equations in precisely predicting the fine structure of flow field, as well as the advantage of vortex method in efficiently computing the global characteristics of the separated flow. It saves computer time and reduces the amount of computation, as compared with pure N-S equation solution. The present method can be used for numerical simulation of bluff body flow at high Reynolds number and would exhibit even greater merit in that case.

Identificador

http://dspace.imech.ac.cn/handle/311007/39436

http://www.irgrid.ac.cn/handle/1471x/5064

Idioma(s)

英语

Fonte

Science In China Series A-Mathematics Physics Astronomy.1992,35(8):977-990

Palavras-Chave #Domain Decomposition #Hybrid Method #Finite-Difference Method #Vortex Method #Numerical Simulation #Circular Cylinder-Separated Flow #Started Circular-Cylinder
Tipo

期刊论文