Large Eddy Simulations for parcels of ocean water in polar regions using Oceananigans.jl
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Updated
Sep 6, 2023 - Julia
Large Eddy Simulations for parcels of ocean water in polar regions using Oceananigans.jl
Fortran90 Computational Fluid Dynamics (CFD) code designed to solve the 3D Navier-Stokes equations for incompressible flow using a high-order finite difference method
Plunging condition for particle-laden flows over sloping bottoms: three-dimensional turbulence-resolving simulations
Proof of principle implementation of a fully covariant filtering scheme for relativistic turbulence.
Hyunbin Kang's Portfolio
Pre-processing script for setting up synthetic inflow simulations in WRF-LES
"Circling in on Convective Self-Aggregation" published in Journal of Geophysical Research: Atmospheres (2021)
Turbulence in a box
Python and Paraview postprocessing tools for use with NREL's SOWFA
Computational modelling of wind flow and wind-induced loads in the Atmospheric Boundary Layer via Dynamic Terrain inflow generation and Large Eddy Simulations
"Circling in on convective organization" published in Geophysical Research Letters (2019)
Density-based compressible transient solver using the flux difference splitting scheme of Bui, with shock sensor-based upwinding. Primarily designed for compressible LES.
Modules for the Lagrangian Plankton Model (LPM) integrated on the PALM LES model in the ocean mixed layer
The Plunging of Hyperpycnal Plumes on Tilted Bed by Three-Dimensional Large-Eddy Simulations
A dynamical model to simulate turbulence. Licensed under the MIT License.
Turbulence-resolving simulations of boundary-layer flows (DNS & LES)
Inflow generation code by using SEM (Synthetic Eddy Method) which is extended to temperature not only fluid components
LES filtering from DNS channel data and get vortical structures using three different identification schemes
Custom version of High-Fidelity Large-Eddy SImulation (HiFiLES) code (https://hifiles.stanford.edu/) by UF Theoretical Fluid Dynamics and Turbulence Group (https://faculty.eng.ufl.edu/fluids/).
LOFT - Lagrangian Offline Flow Trajectories
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