The Research and Application on Computational Methods in Fluid Dynamics

Ke Qin Su; Ya Wei Wang; Jian Ping Wang

doi:10.4028/www.scientific.net/AMR.317-319.807

Paper Titles

Mechanical Analysis and Experiment of Wheel-Soil Interaction of Lunar Rover
p.782

The Modeling and Flow Simulation of 40BZ6-15 Centrifugal Pump
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Multi-Objective Optimization of a 2-DoF Purely Translational Parallel Manipulator
p.794

Study of Smooth and Accurate Position Controls of Pneumatic Artificial Muscle Actuators for Robotic Arms
p.799

The Research and Application on Computational Methods in Fluid Dynamics
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Dynamic Analysis of Multi-Legged Walking Robot’s Swing Leg with Hand-Foot-Integration Function
p.811

Technical Problems and Research Thoughts on Development of Multi-Component Blending Yarn
p.817

The Influence Analysis of Parameter Errors for Multi-Legged Walking Robot
p.823

Computer Aided Geometric Method of Forward Kinematics Analysis of Multi-Legged Walking Robots
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 317-319The Research and Application on Computational...

The Research and Application on Computational Methods in Fluid Dynamics

Abstract:

The NND scheme based on Van Leer flux vector splitting is presented. The flow field of shock wave tube is calculated by the difference method presented in this paper, which shows that the presented finite difference method has fine calculation precision and efficiency, and could capture shock automatically.

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Periodical:

Advanced Materials Research (Volumes 317-319)

Pages:

807-810

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.317-319.807

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Online since:

August 2011

Authors:

Ke Qin Su, Ya Wei Wang, Jian Ping Wang

Keywords:

Fluid Dynamics, Flux Vector Splitting, Nnd Scheme, Shock Capturing

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