Albert Albareda Valls scite author profile

We present a general formulation for incompressible fluid flow analysis using the finite element method. The necessary stabilization for dealing with convective effects and the incompressibility condition are introduced via the Finite Calculus method using a matrix form of the stabilization parameters. This allows to model a wide range of fluid flow problems for low and high Reynolds numbers flows without introducing a turbulence model. Examples of application to the analysis of incompressible flows with moderate and large Reynolds numbers are presented.

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Computation of turbulent flows using a finite calculus–finite element formulation

Oñate

Valls

García

2007

Numerical Methods in Fluids

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SUMMARYWe present a formulation for analysis of turbulent incompressible flows using a stabilized finite element method (FEM) based on the finite calculus (FIC) procedure. The stabilization terms introduced by the FIC approach allow to solve a wide range of fluid flow problems at different Reynolds numbers, including turbulent flows, without the need of a turbulence model. Examples of application of the FIC/FEM formulation to the analysis of 2D and 3D incompressible flows at large Reynolds numbers exhibiting turbulence features are presented.

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Modeling incompressible flows at low and high Reynolds numbers via a finite calculus–finite element approach

Oñate¹,

Valls²,

García³

2007

Journal of Computational Physics

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ODDLS: A new unstructured mesh finite element method for the analysis of free surface flow problems

García-Espinosa

Valls

Oñate

2008

Numerical Meth Engineering

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