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Chinese Physics, 2006, Vol. 15(10): 2352-2356    DOI: 10.1088/1009-1963/15/10/027
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An analysis of the incompressible viscous flows problem by meshless method

Xiong Yuan-Bo(熊渊博) and Wang Hao(王浩)
Department of Engineering Mechanics, Hunan University, Changsha 410082, China
Abstract  Generally the incompressible viscous flow problem is described by the Navier--Stokes equation. Based on the weighted residual method the discrete formulation of element-free Galerkin is inferred in this paper. By the step-by-step computation in the field of time, and adopting the least-square estimation of the-same-order shift, this paper has calculated both velocity and pressure from the decoupling independent equations. Each time fraction Newton--Raphson iterative method is applied for the velocity and pressure. Finally, this paper puts the method into practice of the shear-drive cavity flow, verifying the validity, high accuracy and stability.
Keywords:  incompressible viscous flows      element-free Galerkin method      Navier--Stokes equation      weighted residual method  
Received:  14 November 2005      Revised:  21 March 2006      Accepted manuscript online: 
PACS:  47.15.Rq (Laminar flows in cavities, channels, ducts, and conduits)  
  02.70.Dh (Finite-element and Galerkin methods)  
  47.10.ad (Navier-Stokes equations)  
Fund: Projects Supported by the Project Fund of the Hubei Province Key Lab. of Mechanical Transmission & Manufacturing Engineering Wuhan University of Science & Technology (Grant No 2003A16) is gratefully acknowledged.

Cite this article: 

Xiong Yuan-Bo(熊渊博) and Wang Hao(王浩) An analysis of the incompressible viscous flows problem by meshless method 2006 Chinese Physics 15 2352

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