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Hauptverfasser: Balvet, Guilhem, Minier, Jean-Pierre, Roustan, Yelva, Ferrand, Martin
Format: Preprint
Veröffentlicht: 2024
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2402.03836
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_version_ 1866911772022145024
author Balvet, Guilhem
Minier, Jean-Pierre
Roustan, Yelva
Ferrand, Martin
author_facet Balvet, Guilhem
Minier, Jean-Pierre
Roustan, Yelva
Ferrand, Martin
contents Lagrangian stochastic methods are widely used to model turbulent flows. Scarce consideration has, however, been devoted to the treatment of the near-wall region and to the formulation of a proper wall-boundary condition. With respect to this issue, the main purpose of this paper is to present an in-depth analysis of such flows when relying on particle/mesh formulations of the probability density function (PDF) model. This is translated into three objectives. The first objective is to assess the existing an-elastic wall-boundary condition and present new validation results. The second objective is to analyse the impact of the interpolation of the mean fields at particle positions on their dynamics. The third objective is to investigate the spatial error affecting covariance estimators when they are extracted on coarse volumes. All these developments allow to ascertain that the key dynamical statistics of wall-bounded flows are properly captured even for coarse spatial resolutions.
format Preprint
id arxiv_https___arxiv_org_abs_2402_03836
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Analysis of wall-modelled particle/mesh PDF methods for turbulent parietal flows
Balvet, Guilhem
Minier, Jean-Pierre
Roustan, Yelva
Ferrand, Martin
Fluid Dynamics
Lagrangian stochastic methods are widely used to model turbulent flows. Scarce consideration has, however, been devoted to the treatment of the near-wall region and to the formulation of a proper wall-boundary condition. With respect to this issue, the main purpose of this paper is to present an in-depth analysis of such flows when relying on particle/mesh formulations of the probability density function (PDF) model. This is translated into three objectives. The first objective is to assess the existing an-elastic wall-boundary condition and present new validation results. The second objective is to analyse the impact of the interpolation of the mean fields at particle positions on their dynamics. The third objective is to investigate the spatial error affecting covariance estimators when they are extracted on coarse volumes. All these developments allow to ascertain that the key dynamical statistics of wall-bounded flows are properly captured even for coarse spatial resolutions.
title Analysis of wall-modelled particle/mesh PDF methods for turbulent parietal flows
topic Fluid Dynamics
url https://arxiv.org/abs/2402.03836