p. 2590-2599This paper presents a stabilized finite element formulation for large eddy simulation to predict the turbulent flow with high Reynolds number, which can be applied for the simulation of wind field and wind pressure distribution around shell and spatial structures. The Smagorinsky sub-grid scale model is applied for the governing equations of incompressible viscous flow and the streamline upwind Petrov-Galerkin (SUPG) weak formulation is adopted for momentum equation. For the spatial discretization, the same order iso-parametric interpolation process for the flow¿s velocity and pressure is introduced, and for temporal discretization, the explicit three-step finite element method is applied. All of those are adopted to overc...
finite elements method Abstract. We propose a stabilized finite element method to address complex hi...
A computational approach for performing large-eddy simulation (LES) of flows with active control is ...
Abstract In this work, we study the performance of some local projection-based solvers in the Large ...
The equations of motion describing turbulent flows (in both the low and high Reynolds-number regimes...
finite elements method Summary. We propose a stabilized finite element method to address complex hig...
The suitability of spectral/h — p finite elements for large eddy simulation and the performance of t...
Nowadays, aerodynamic of the behavior of some slender structures in performed by means of computatio...
Large eddy simulation based on stabilized finite element method for the analysis of wind field aroun...
Turbulent flows present structures with a wide range of scales. The computation of the complete phys...
Aplicat embargament des de l data de defensa fins el 31/12/2020This thesis develops a large eddy sim...
The main objectives of this work are the formulation, implementation and applications of a numerical...
Avalaible on: http://web.univ-ubs.fr/limatb/EG2M/Disc_Seminaire/ECCOMAS-CFD2010/papers/01019.pdfInte...
Available on: http://congress.cimne.com/CMWR2010/frontal/default.aspInternational audienceWe propose...
This article develops a parallel large-eddy simulation (LES) with a one-equation subgrid-scale (SGS)...
An innovative computational model is presented for the large eddy simulation (LES) modeling of multi...
finite elements method Abstract. We propose a stabilized finite element method to address complex hi...
A computational approach for performing large-eddy simulation (LES) of flows with active control is ...
Abstract In this work, we study the performance of some local projection-based solvers in the Large ...
The equations of motion describing turbulent flows (in both the low and high Reynolds-number regimes...
finite elements method Summary. We propose a stabilized finite element method to address complex hig...
The suitability of spectral/h — p finite elements for large eddy simulation and the performance of t...
Nowadays, aerodynamic of the behavior of some slender structures in performed by means of computatio...
Large eddy simulation based on stabilized finite element method for the analysis of wind field aroun...
Turbulent flows present structures with a wide range of scales. The computation of the complete phys...
Aplicat embargament des de l data de defensa fins el 31/12/2020This thesis develops a large eddy sim...
The main objectives of this work are the formulation, implementation and applications of a numerical...
Avalaible on: http://web.univ-ubs.fr/limatb/EG2M/Disc_Seminaire/ECCOMAS-CFD2010/papers/01019.pdfInte...
Available on: http://congress.cimne.com/CMWR2010/frontal/default.aspInternational audienceWe propose...
This article develops a parallel large-eddy simulation (LES) with a one-equation subgrid-scale (SGS)...
An innovative computational model is presented for the large eddy simulation (LES) modeling of multi...
finite elements method Abstract. We propose a stabilized finite element method to address complex hi...
A computational approach for performing large-eddy simulation (LES) of flows with active control is ...
Abstract In this work, we study the performance of some local projection-based solvers in the Large ...