G
Guido Lodato
Researcher at University of Rouen
Publications - 44
Citations - 790
Guido Lodato is an academic researcher from University of Rouen. The author has contributed to research in topics: Large eddy simulation & Turbulence. The author has an hindex of 12, co-authored 41 publications receiving 650 citations. Previous affiliations of Guido Lodato include Institut national des sciences appliquées de Rouen & Center for Turbulence Research.
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Three-dimensional boundary conditions for direct and large-eddy simulation of compressible viscous flows
TL;DR: This paper extends NSCBC to account for convection and pressure gradients in boundary planes, resulting in a 3D-NSCBC approach that brings a drastic reduction of flow distortion and numerical reflection, even in regions of strong transverse convection.
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A compressible wall-adapting similarity mixed model for large-eddy simulation of the impinging round jet
TL;DR: In this article, the wall-jet interaction is studied with large-eddy simulation (LES) in which a mixed-similarity subgrid scale (SGS) closure is combined with the walladapting local eddy-viscosity (WALE) model for the eddy viscosity term.
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Structural Wall-modeled LES Using a High-order Spectral Difference Scheme for Unstructured Meshes
TL;DR: The combination of the selected wall-modeling strategies and the similarity mixed formulation proves to be remarkably accurate, even in the presence of boundary layer separation, thus opening the path to further exploit the high-order SD platform, as well as a broad range of other similar methodologies, for WMLES.
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Scalar energy fluctuations in Large-Eddy Simulation of turbulent flames: Statistical budgets and mesh quality criterion
TL;DR: In this paper, the critical values of these ratios under which measured and computed variances (resolved plus sub-grid scale) can be compared without resorting to additional residual terms are first determined.
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Estimation of three-dimensional flame surface densities from planar images in turbulent premixed combustion
TL;DR: In this paper, the authors estimate flame surface densities from two-dimensional measurements assuming that the flow is statistically two dimensional and the measuring plane is a plane of symmetry of the mean flow.