Master's Dissertation
DOI
https://doi.org/10.11606/D.55.2011.tde-12052011-084444
Document
Author
Full name
Laís Corrêa
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
São Carlos, 2011
Supervisor
Committee
Ferreira, Valdemir Garcia (President)
Schulz, Harry Edmar
Souza, Leandro Franco de
Schulz, Harry Edmar
Souza, Leandro Franco de
Title in Portuguese
Um novo esquema upwind de alta resolução para equações de conservação não estacionárias dominadas por convecção
Keywords in Portuguese
Equações de Navier-Stokes
Escoamnetos com superfícies livres móveis
Esquemas convectivos
Leis de conservação
Modelo '\kappa' - '\epsilon'E
Upwinding
Escoamnetos com superfícies livres móveis
Esquemas convectivos
Leis de conservação
Modelo '\kappa' - '\epsilon'E
Upwinding
Abstract in Portuguese
Neste trabalho apresenta-se um novo esquema prático tipo upwind de alta resolução, denominado EPUS (Eight-degree Polynomial Upwind Scheme), para resolver numericamente equações de conservação TVD e é implementado no contexto do método das diferenças finitas. O desempenho do esquema é investigado na resolução de sistemas hiperbólicos de leis de conservação e escoamentos incompressíveis complexos com superfícies livres. Os resultados numéricos mostraram boa concordãncia com outros resultados numéricos e dados experimentais existentes
Title in English
A new high-resolution upwind scheme for non stationary conservation equations dominated by convection
Keywords in English
'\kappa' - 'epsilon' model
Conservation laws
Convective schemes
Free surface flows
Navier-Stokes equations
Upwinding
Conservation laws
Convective schemes
Free surface flows
Navier-Stokes equations
Upwinding
Abstract in English
Is this work a new practical high resolution upwinding scheme, called EPUS (Eight-degree Polynomial Upwind Scheme), for the numerical solution of transient convection-dominated conservation equations is present. The scheme is based on TVD stability criterion and is implemented in the context of the finite difference methodology. The performance of the scheme is investigated by solving hyperbolic systems of conservation laws and complex incompressible flows with free surfaces. The numerical results displayed good agreement with other existing numerical and experimental data
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Publishing Date
2011-05-12
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Digital Library of Theses and Dissertations of USP. Copyright © 2001-2024. All rights reserved.