| Bonus Resources.txt | 102.4 B | ||
| Get Bonus Downloads Here.url | 204.8 B | ||
| fps.foam | 0 B | ||
| fps.geo | 204.8 B | ||
| new_geom.geo | 614.4 B | ||
| rotating.geo | 614.4 B | ||
| system | |||
| 2 - Standard Large Eddy Simulations Models | |||
| 2. LES Theory Filtering SGS Models & OpenFOAM Implementation.mp4 | 242.9 MB | ||
| 3. LES Theory Filtering SGS Models & OpenFOAM Implementation.mp4 | 377.5 MB | ||
| 4. Improving LES Accuracy in OpenFOAM Mesh Refinement and Prism Layers.mp4 | 239.9 MB | ||
| 5. Comparing Smagorinsky WALE & k Equation Models.mp4 | 576.6 MB | ||
| fps_les_deardorff | |||
| constant | |||
| transportProperties | 921.6 B | ||
| turbulenceProperties | 1.6 KB | ||
| 3 - DES DDES & IDDES with OpenFOAM Implementation | |||
| 6. Hybrid RANS–LES Modeling Explained.mp4 | 388 MB | ||
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| p | 1.3 KB | ||
| PDRblockMeshDict | 1.2 KB | ||
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| controlDict | 1.5 KB | ||
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| k | 1.4 KB | ||
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| turbulenceProperties | 1.2 KB | ||
| k.old | 1.4 KB | ||
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| k.old | 1.4 KB | ||
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| k.old | 1.4 KB | ||
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| k | 1.4 KB | ||
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| k | 1.4 KB | ||
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| omega | 1.4 KB | ||
| p | 1.3 KB | ||
| fvSchemes | 1.4 KB | ||
| fvSolution | 1.9 KB | ||
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| preProcess | 2.4 KB | ||
| snappyHexMeshDict | 9.2 KB | ||
| solverInfo | 819.2 B | ||
| surfaceFeatureExtractDict | 1.4 KB | ||
| ~Get Your Files Here ! | |||
| 1 - Introduction to Large Eddy Simulations | |||
| 1. Introduction.mp4 | 657 MB | ||
| fps_rans_test1 | |||
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| U | 1.4 KB | ||
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| transportProperties | 921.6 B | ||
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| omega | 1.4 KB | ||
| p | 1.3 KB |
Practical Large Eddy Simulation (LES) Using OpenFOAM
https://WebToolTip.com
Published 12/2025
Created by Navygate Technologies
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz, 2 Ch
Level: Intermediate | Genre: eLearning | Language: English | Duration: 6 Lectures ( 2h 32m ) | Size: 2.42 GB
Hands-on turbulence modeling with SGS, DES/IDDES, and real-world CFD case studies
What you'll learn
Derive the LES formulation from the Navier–Stokes equations using spatial filtering
Understand subgrid-scale (SGS) stresses and the physical role of SGS models
Implement and compare major SGS models: Smagorinsky, WALE, k-equation, dynamic, and hybrid RANS–LES (DES/IDDES)
Set up and run practical LES simulations for turbulent flow past a square cylinder
Analyze vortex shedding, wake dynamics, turbulence statistics, and mesh resolution requirements
Compare LES results with k-ω SST RANS to evaluate accuracy and computational cost
Apply guidelines for wall-resolved vs. wall-modeled LES in engineering problems
Requirements
Basic understanding of fluid mechanics and turbulence fundamentals
Familiarity with Reynolds-averaged Navier–Stokes (RANS) concepts
Basic knowledge of Linux/Unix environment and command-line usage
Prior exposure to OpenFOAM (case structure, running solvers, post-processing)
Understanding of numerical methods (finite volume method preferred)
Comfort with vector and tensor notation, calculus, and differential equations
(Optional) Basic scripting skills for post-processing and automation
| torrent name | size | uploader | age | seed | leech |
|---|---|---|---|---|---|
| 2.1 GB | freecoursewb | 2 days | 2 | 21 | |
| 1.8 GB | freecoursewb | 1 week | 0 | 0 | |
| 2.4 GB | freecoursewb | 3 weeks | 1 | 35 | |
| 673.8 MB | freecoursewb | 3 weeks | 3 | 2 | |
| 1.7 GB | freecoursewb | 3 weeks | 0 | 0 |
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