Artículo
A second-order in time and space particle-based method to solve flow problems on arbitrary meshes
Gimenez, Juan Marcelo
; Aguerre, Horacio Javier
; Idelsohn, Sergio Rodolfo
; Nigro, Norberto Marcelo
Fecha de publicación:
03/2019
Editorial:
Academic Press Inc Elsevier Science
Revista:
Journal of Computational Physics
ISSN:
0021-9991
Idioma:
Inglés
Tipo de recurso:
Artículo publicado
Clasificación temática:
Resumen
This work presents a novel proposal of a second-order accurate (in time and space) particle-based method for solving transport equations including incompressible flows problems within a mixed Lagrangian-Eulerian formulation. This methodology consists of a symmetrical operator splitting, the use of high-order operators to transfer data between the particles and the background mesh, and an improved version of the eXplicit Integration Following the Streamlines (X-IVS) method. In the case of incompressible flows, a large time-step iterative solver is employed where the momentum equation is split to improve the numerical approximation of the convective term. New interpolation and projection operators are evaluated and quadratically accurate solutions of scalar transport tests are presented. Then, incompressible flow problems are solved where the rate of convergence of the method is assessed using both structured and unstructured background grids. The method is implemented in the open source platform OpenFOAM (R) allowing employing arbitrary meshes and obtaining reliable computing time comparisons with standardized solvers. The results obtained reveal that the current method is able to obtain a lower level of error than a fast Eulerian alternative, without increasing the total computing time.
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Articulos(CIMEC)
Articulos de CENTRO DE INVESTIGACION DE METODOS COMPUTACIONALES
Articulos de CENTRO DE INVESTIGACION DE METODOS COMPUTACIONALES
Citación
Gimenez, Juan Marcelo; Aguerre, Horacio Javier; Idelsohn, Sergio Rodolfo; Nigro, Norberto Marcelo; A second-order in time and space particle-based method to solve flow problems on arbitrary meshes; Academic Press Inc Elsevier Science; Journal of Computational Physics; 380; 3-2019; 295-310
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