Browsing by Author "Giuliano De Stefano"
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Dataset Galilean-Invariant Characteristic-Based Volume Penalization Method for Supersonic Flows with Moving Boundaries(MDPI AG, 2021) Nurlybek Kasimov; Eric Dymkoski; Giuliano De Stefano; Oleg V. VasilyevDistribution Galilean-Invariant Characteristic-Based Volume Penalization Method for Supersonic Flows with Moving BoundariesNurlybek Kasimov; Eric Dymkoski; Giuliano De Stefano; Oleg V. VasilyevDistribution Galilean-Invariant Characteristic-Based Volume Penalization Method for Supersonic Flows with Moving BoundariesNurlybek Kasimov; Eric Dymkoski; Giuliano De Stefano; Oleg V. VasilyevDistribution Hierarchical Adaptive Eddy-Capturing Approach for Modeling and Simulation of Turbulent FlowsGiuliano De Stefano; Oleg V. VasilyevDataset Hierarchical Adaptive Eddy-Capturing Approach for Modeling and Simulation of Turbulent Flows(MDPI AG, 2021) Giuliano De Stefano; Oleg V. VasilyevDistribution Hierarchical Adaptive Eddy-Capturing Approach for Modeling and Simulation of Turbulent FlowsGiuliano De Stefano; Oleg V. VasilyevDistribution Wall-Modeled and Hybrid Large-Eddy Simulations of the Flow over Roughness StripsTeresa Salomone; Ugo Piomelli; Giuliano De StefanoDistribution Wall-Modeled and Hybrid Large-Eddy Simulations of the Flow over Roughness StripsTeresa Salomone; Ugo Piomelli; Giuliano De StefanoDataset Wall-Modeled and Hybrid Large-Eddy Simulations of the Flow over Roughness Strips(MDPI AG, 2022) Teresa Salomone; Ugo Piomelli; Giuliano De StefanoDistribution Wavelet-Based Adaptive Eddy-Resolving Methods for Modeling and Simulation of Complex Wall-Bounded Compressible Turbulent FlowsXuan Ge; Giuliano De Stefano; M. Hussaini; Oleg VasilyevDistribution Wavelet-Based Adaptive Eddy-Resolving Methods for Modeling and Simulation of Complex Wall-Bounded Compressible Turbulent FlowsXuan Ge; Giuliano De Stefano; M. Hussaini; Oleg VasilyevDataset Wavelet-Based Adaptive Eddy-Resolving Methods for Modeling and Simulation of Complex Wall-Bounded Compressible Turbulent Flows(MDPI AG, 2021) Xuan Ge; Giuliano De Stefano; M. Hussaini; Oleg Vasilyev