Simulations of Aerodynamic Separated Flows Using the Lattice Boltzmann Solver XFlow

M. Chávez-Modena; J. L. Martínez; J. A. Cabello; E. Ferrer

doi:10.3390/en13195146

Energies (Oct 2020)

Simulations of Aerodynamic Separated Flows Using the Lattice Boltzmann Solver XFlow

M. Chávez-Modena,
J. L. Martínez,
J. A. Cabello,
E. Ferrer

Affiliations

M. Chávez-Modena: Applied Mathematics Dept., Universidad Politécnica, de Madrid-ETSIAE Pz. Cardenal Cisneros 3, E28040 Madrid, Spain
J. L. Martínez: Future Projects, Airbus Spain, Paseo John Lennon, E28906 Madrid, Spain
J. A. Cabello: Future Projects, Airbus Spain, Paseo John Lennon, E28906 Madrid, Spain
E. Ferrer: Applied Mathematics Dept., Universidad Politécnica, de Madrid-ETSIAE Pz. Cardenal Cisneros 3, E28040 Madrid, Spain

DOI: https://doi.org/10.3390/en13195146
Journal volume & issue: Vol. 13, no. 19
p. 5146

Abstract

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We present simulations of turbulent detached flows using the commercial lattice Boltzmann solver XFlow (by Dassault Systemes). XFlow’s lattice Boltzmann formulation together with an efficient octree mesh generator reduce substantially the cost of generating complex meshes for industrial flows. In this work, we challenge these meshes and quantify the accuracy of the solver for detached turbulent flows. The good performance of XFlow when combined with a Large-Eddy Simulation turbulence model is demonstrated for different industrial benchmarks and validated using experimental data or fine numerical simulations. We select five test cases: the Backward-facing step the Goldschmied Body the HLPW-2 (2nd High-Lift Prediction Workshop) full aircraft geometry, a NACA0012 under dynamic stall conditions and a parametric study of leading edge tubercles to improve stall behavior on a 3D wing.

Published in Energies

ISSN: 1996-1073 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Technology
Website: http://www.mdpi.com/journal/energies

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