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A meshless (LBIE) method for the solution of the Navier - Stokes equations. by Sellountos J Euripides & Adelia Sequeira Instituto Seperior Tecnico CEMAT. Haemodel, Bergamo September 2006. Motivation of Meshless Methods: Easy to model.
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A meshless (LBIE) method for the solution of the Navier - Stokes equations by Sellountos J Euripides & Adelia Sequeira Instituto Seperior Tecnico CEMAT Haemodel, Bergamo September 2006
Motivation of Meshless Methods: Easy to model • Meshing and remeshing of complex geometries relevant to blood flow problems (stenosed, curved or bifurcating vessels) is easy with the addition-movement of nodal points
Motivation of Meshless Methods: Easy to model • Meshing and remeshing of complex geometries relevant to blood flow problems (stenosed, curved or bifurcating vessels) is easy with the addition-movement of nodal points • Meshless methods: Computational method related to surface reconstruction techniques
Motivation of Meshless Methods: Easy to model • Meshing and remeshing of complex geometries relevant to blood flow problems (stenosed, curved or bifurcating vessels) is easy with the addition-movement of nodal points • Meshless methods: Computational method related to surface reconstruction techniques • Local solution of the boundary-domain integral equations
Motivation of Meshless Methods: Easy to model • Meshing and remeshing of complex geometries relevant to blood flow problems (stenosed, curved or bifurcating vessels) is easy with the addition-movement of nodal points • Meshless methods: Computational method related to surface reconstruction techniques • Local solution of the boundary-domain integral equations • Approximation of the unknown field with randomly distributed nodal points only • System of equations are in band form • In small vessels blood behaves as a shear thinning (and viscoelastic fluid)
Nodal Support, Connectivity and Interpolation Support domain of a nodal point Every nodal point has an associated circular region of influence
Nodal Support, Connectivity and Interpolation Neighborhood of a nodal point Support domain of a nodal point Every nodal point has an associated circular region of influence
Nodal Support, Connectivity and Interpolation Support domain of a nodal point Every nodal point has an associated circular region of influence Neighborhood of a nodal point Interpolation of unknown field
Generalized Navier – Stokes equations • Conservation of mass • Conservation of momentum • Shear stress • Vorticity • Strain rate tensor • Viscosity is assumed to be shear strain rate or shear stress dependant Armin Leuprecht and Karl Perktold
Generalized Navier – Stokes equations Velocity - vorticity scheme • The fluid motion scheme is partitioned to kinematics • and kinetics • decomposition of velocity and viscosity to a mean and a perturbed value
Generalized Navier – Stokes equations Velocity - vorticity scheme Kinematics Integral Representation Skerget and Hribersek
Generalized Navier – Stokes equations Velocity - vorticity scheme Kinetics Integral Representation
Generalized Navier – Stokes equations Velocity - vorticity scheme Kinematics Local Integral Representation Compation solution • Satisfies linear part of the differential operator • Equals to the fundamental on the local boundary
Generalized Navier – Stokes equations Velocity - vorticity scheme Kinetics Local Integral Representation
Discretization and Numerical Evaluation of Integrals Involved Integrals
Discretization and Numerical Evaluation of Integrals • Arc integrals Involved Integrals
Discretization and Numerical Evaluation of Integrals • Boundary integrals Involved Integrals
Discretization and Numerical Evaluation of Integrals • Volume integrals Involved Integrals
Discretization and Solution Procedure Approximation of Boundary Vorticity ω Computation of shear rate and new nodal viscosity
Discretization and Solution Procedure Check vorticity’s convergence / Iteration decision
Conclusions – Future work • Mesh free method, only points are needed for the interpolation • Solution of boundary integral equation • Use of other test functions instead of fundamental solution • Hypersingular integral equation for boundary points in kinematics equation Thanks for your attention