This paper presents an improved unstructured grid immersed boundary method.The advantages of both immersed boundary method and body fitted grids which are generated by unstructured grid technology are used to enhance ...This paper presents an improved unstructured grid immersed boundary method.The advantages of both immersed boundary method and body fitted grids which are generated by unstructured grid technology are used to enhance the computation efficiency of fluid structure interaction in complex domain.The Navier-Stokes equation was discretized spacially with collocated finite volume method and Euler implicit method in time domain.The rigid body motion was simulated by immersed boundary method in which the fluid and rigid body interface interaction was dealt with VOS(volume of solid) method.A new VOS calculation method based on graph was presented in which both immersed boundary points and cross points were collected in arbitrary order to form a graph.The method is verified with flow past oscillating cylinder.展开更多
Based on the working principle and the damping characteristic of hydraulic shock absorber,a fluid structure interaction method was presented,which was used to analyze the microcosmic and high-frequency processing mech...Based on the working principle and the damping characteristic of hydraulic shock absorber,a fluid structure interaction method was presented,which was used to analyze the microcosmic and high-frequency processing mechanism of fluid structure interaction between circulation valve and liquid of hydraulic shock absorber.The fluid mesh distortion was controlled by the CEL language,and the fluid structure interaction mathematical model was established.The finite element model was established by ANSYS CFX software and was analyzed by dynamic mesh technique.The local sensitive computational area was meshed by prismatic grid,which could reduce the negative volume problem during the simulation.The circulation valve and liquid of hydraulic shock absorber were simulated and analyzed under the condition of sinusoidal inlet velocity loads.Flow characteristic and dynamics characteristic were obtained.The pressure distribution and the displacement of circulation value were obtained,and the acceleration curve of circulation valve was simulated and analyzed.The conformity of the final simulation results with the experimental datum indicates that this method is accurate and reliable to analyze the dynamics characteristic between circulation valve and liquid of hydraulic shock absorber,which can provide a theoretical foundation for optimizing hydraulic shock absorber in the future.展开更多
文摘This paper presents an improved unstructured grid immersed boundary method.The advantages of both immersed boundary method and body fitted grids which are generated by unstructured grid technology are used to enhance the computation efficiency of fluid structure interaction in complex domain.The Navier-Stokes equation was discretized spacially with collocated finite volume method and Euler implicit method in time domain.The rigid body motion was simulated by immersed boundary method in which the fluid and rigid body interface interaction was dealt with VOS(volume of solid) method.A new VOS calculation method based on graph was presented in which both immersed boundary points and cross points were collected in arbitrary order to form a graph.The method is verified with flow past oscillating cylinder.
基金Project(51275542) supported by the National Natural Science Foundation of Chinaproject(CDJXS12110010) supported by the Fundamental Research Funds for the Central Universities of China
文摘Based on the working principle and the damping characteristic of hydraulic shock absorber,a fluid structure interaction method was presented,which was used to analyze the microcosmic and high-frequency processing mechanism of fluid structure interaction between circulation valve and liquid of hydraulic shock absorber.The fluid mesh distortion was controlled by the CEL language,and the fluid structure interaction mathematical model was established.The finite element model was established by ANSYS CFX software and was analyzed by dynamic mesh technique.The local sensitive computational area was meshed by prismatic grid,which could reduce the negative volume problem during the simulation.The circulation valve and liquid of hydraulic shock absorber were simulated and analyzed under the condition of sinusoidal inlet velocity loads.Flow characteristic and dynamics characteristic were obtained.The pressure distribution and the displacement of circulation value were obtained,and the acceleration curve of circulation valve was simulated and analyzed.The conformity of the final simulation results with the experimental datum indicates that this method is accurate and reliable to analyze the dynamics characteristic between circulation valve and liquid of hydraulic shock absorber,which can provide a theoretical foundation for optimizing hydraulic shock absorber in the future.