Udemy - Introduction to RANS Turbulence Modeling in OpenFOAM

Category Other
Type Tutorials
Language English
Total size 1.3 GB
Uploaded By freecoursewb

Downloads 7
Last checked 5 hours ago
Date uploaded 13 hours ago
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Infohash : 77F0003A808E96953DA5EA31FB0CB9EB3BD91721

Introduction to RANS Turbulence Modeling in OpenFOAM

https://WebToolTip.com

Published 12/2025
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz, 2 Ch
Language: English | Duration: 1h 54m | Size: 1.32 GB

Eddy-Viscosity Models and the Backward-Facing Step

What you'll learn
Describe the Reynolds-Averaged Navier–Stokes equations, the concept of Reynolds stresses, and the need for turbulence modeling.
Explain the Boussinesq hypothesis and how eddy-viscosity–based models close the RANS equations.
Compare Spalart–Allmaras, standard k–ε, RNG k–ε, k–ω, and SST k–ω models in terms of assumptions, strengths, and limitations.
Justify the choice of a RANS model for separated flows such as the backward-facing step.
Configure mesh, boundary conditions, turbulence properties, and solver settings for incompressible RANS simulations.
Use ParaView to extract and interpret velocity, pressure, and turbulent viscosity fields.
Describe the key ideas behind the LRR Reynolds Stress Model (RSM) and explain how it overcomes limitations of eddy-viscosity–based RANS models.

Requirements
Ability to install and run OpenFOAM on a local machine (Linux or Docker-based setup)
Basic understanding of the Navier–Stokes equations and fundamental fluid mechanics concepts
Familiarity with CFD terminology such as velocity, pressure, boundary conditions, and meshes
Elementary knowledge of numerical methods and discretization (helpful but not mandatory)
Willingness to use the Linux command line for running simulations and post-processing
Comfortable using Ubuntu Linux for nstrations; Windows and macOS users can follow along using Docker or WSL.

                Files: 

                [ WebToolTip.com ] Udemy - Introduction to RANS Turbulence Modeling in OpenFOAM
Get Bonus Downloads Here.url (0.2 KB)
~Get Your Files Here !1 - Introduction to Reynolds Averaging1. Derivation of the Reynolds Averaged Navier–Stokes (RANS) Equations.mp4 (44.5 MB)
2. The Boussinesq Hypothesis and Turbulence Closure Models.mp4 (26.9 MB)
2 - Model Construction Introduction to blockMesh3. Setting Backward Facing Step Using gmsh.mp4 (292.7 MB)
4. Setting up Backward Facing Step using BlockMesh.mp4 (251.8 MB)
bfs.geo (1.8 KB)
3 - Zero Equation Model5. Understanding Zero Equation Model.mp4 (17.3 MB)
4 - One Equation Model6. Theory behind One Equation Model.mp4 (23.0 MB)
7. Using Spallart Allmaras Model in OpenFOAM.mp4 (196.4 MB)
sa0U (1.3 KB)
nuTilda (1.3 KB)
nut (1.3 KB)
p (1.2 KB)
constanttransportProperties (0.9 KB)
turbulenceProperties (0.9 KB)
systemPDRblockMeshDict (1.2 KB)
blockMeshDict (4.2 KB)
controlDict (1.2 KB)
decomposeParDict (0.9 KB)
fvSchemes (1.4 KB)
fvSolution (1.4 KB)
5 - Two Equation Model8. Simplest Two Equation Model.mp4 (57.9 MB)
9. Using k epsilon Model for BFS.mp4 (104.9 MB)
k_eps0U (1.3 KB)
epsilon (1.3 KB)
k (1.3 KB)
nut (1.3 KB)
p (1.2 KB)
constanttransportProperties (0.9 KB)
turbulenceProperties (0.9 KB)
systemPDRblockMeshDict (1.2 KB)
blockMeshDict (4.2 KB)
controlDict (1.2 KB)
decomposeParDict (0.9 KB)
fvSchemes (1.4 KB)
fvSolution (1.4 KB)
6 - K Omega SST Blended Model10. Understanding k omega and k omega SST.mp4 (65.9 MB)
11. k omega and k omega SST in OpenFOAM.mp4 (107.0 MB)
k_omega0U (1.3 KB)
k (1.3 KB)
omega (1.3 KB)
p (1.2 KB)
constanttransportProperties (0.9 KB)
turbulenceProperties (0.9 KB)
systemPDRblockMeshDict (1.2 KB)
blockMeshDict (4.2 KB)
controlDict (1.2 KB)
decomposeParDict (0.9 KB)
fvSchemes (1.4 KB)
fvSolution (1.4 KB)
k_omega_sst0.origU (1.3 KB)
epsilon (1.3 KB)
k (1.3 KB)
nuTilda (1.3 KB)
nut (1.4 KB)
p (1.3 KB)
0U (1.3 KB)
k (1.3 KB)
nut (1.3 KB)
omega (1.3 KB)
p (1.2 KB)
README.md (0.8 KB)
a.foam (0.0 KB)
constanttransportProperties (0.9 KB)
turbulenceProperties (0.9 KB)
k_omega0U (1.3 KB)
k (1.3 KB)
nut (1.3 KB)
omega (1.3 KB)
p (1.2 KB)
constanttransportProperties (0.9 KB)
turbulenceProperties (0.9 KB)
systemPDRblockMeshDict (1.2 KB)
blockMeshDict (4.2 KB)
controlDict (1.2 KB)
decomposeParDict (0.9 KB)
fvSchemes (1.4 KB)
fvSolution (1.4 KB)
plot (3.1 KB)
systemPDRblockMeshDict (1.2 KB)
blockMeshDict (4.2 KB)
controlDict (1.4 KB)
decomposeParDict (0.9 KB)
fvSchemes (1.4 KB)
fvSolution (1.4 KB)
pressureCoefficient (0.2 KB)
sample (1.2 KB)
sampleCp (0.2 KB)
stressComponents (0.1 KB)
7 - Reynolds Stress Model LRR Model12. Understanding the Drawback of Eddy Viscosity Based Models.mp4 (25.4 MB)
13. SImulating using LRR Model.mp4 (137.7 MB)
lrr0R (1.3 MB)
U (1.3 KB)
epsilon (1.3 KB)
k (1.3 KB)
nut (1.3 KB)
p (1.2 KB)
a.foam (0.0 KB)
constanttransportProperties (0.9 KB)
turbulenceProperties (0.9 KB)
systemPDRblockMeshDict (1.2 KB)
blockMeshDict (4.2 KB)
controlDict (1.2 KB)
decomposeParDict (0.9 KB)
fvSchemes (1.5 KB)
fvSolution (1.5 KB)
Bonus Resources.txt (0.1 KB)

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