Exploració per autor "Villardi de Montlaur, Adeline de"
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Perspectives on OpenFOAM numerical simulations of slope winds in Mars
Rojas Gregorio, José Ignacio; Arias Calderón, Santiago; Villardi de Montlaur, Adeline de (Budapest University of Technology and Economics, 2022)
Comunicació de congrés
Accés obertPlanetary boundary layer phenomena, such as slope winds and nocturnal low-level jets, are frequent on Mars, e.g., whenever diurnal surface temperature variations are significant, and large-scale winds are weak. In particular, ... -
Pilot3 - D1.1 Technical Resources and Problem definition
Delgado Muñoz, Luis; Kuljanin, Jovana; Villardi de Montlaur, Adeline de; Prats Menéndez, Xavier; Martínez, Darío; Fernández, Antonio; Schultz, Ralph (2020-05-11)
Report de recerca
Accés obertThis deliverable starts with the proposal of Pilot3 but incorporates the development produced during the first four months of the project: activities on different workpackages, interaction with Topic Manager and Project ... -
Pilot3 - D5.2: Verification and validation report
Kuljanin, Jovana; Prats Menéndez, Xavier; Homdedeu i Muñiz, Júlia de; Villardi de Montlaur, Adeline de; Delgado Muñoz, Luis; De Falco, Paolino; Argerich, Clara; Valput, Damir; Schultz, Ralph (2022-03-28)
Report de recerca
Accés restringit per política de l'editorialThe deliverable provides the outcomes from the verification and validation activities carried during the course of work package 5 of the Pilot3 project, and according to the verification and validation plan defined in ... -
Simulating debris impacts on hydrokinetic infrastructure
Aliseda, A; Bagi, A; Johnson, Jerome B; Duvoy, P. X.; Kasper, J. L; Kulchitsky, A; Villardi de Montlaur, Adeline de (2017)
Comunicació de congrés
Accés obertThe discrete element method was applied to model the impact force of woody debris (trees) on hydrokinetic infrastructure in a river setting. The DEM model, termed the Hydrokinetic Debris Impact Simulator (HDIS) was used ... -
Simulations of wind formation in idealised mountain–valley systems using OpenFOAM
Arias Calderón, Santiago; Rojas Gregorio, José Ignacio; Athota, Rathan Babu; Villardi de Montlaur, Adeline de (Multidisciplinary Digital Publishing Institute (MDPI), 2023-01-11)
Article
Accés obertAn OpenFOAM computational fluid dynamics model setup is proposed for simulating thermally driven winds in mountain–valley systems. As a first step, the choice of Reynolds Averaged Navier–Stokes k-e turbulence model is ... -
Vortex formation above prismatic-shaped cliffs; an experimental and numerical investigation
Villardi de Montlaur, Adeline de (2012)
Text en actes de congrés
Accés obert