Difference between revisions of "Collection by authors"
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* [https://wiki.openfoam.com/Dynamic_stall_NACA0012_Michael_Alletto Dynamic stall simulation of an incompressible flow around a NACA0012 wing] | * [https://wiki.openfoam.com/Dynamic_stall_NACA0012_Michael_Alletto Dynamic stall simulation of an incompressible flow around a NACA0012 wing] | ||
* [https://wiki.openfoam.com/Coupling_a_membrane_with_pretension_to_point_displacement_Michael_Alletto Coupling the motion of a membrane with pretension to point the displacement of the mesh] | * [https://wiki.openfoam.com/Coupling_a_membrane_with_pretension_to_point_displacement_Michael_Alletto Coupling the motion of a membrane with pretension to point the displacement of the mesh] | ||
+ | * [https://wiki.openfoam.com/Coupling_a_simple_nonlinear_membrane_to_point_displacement_Michael_Alletto Coupling the motion of a simple non linear membrane model to point the displacement of the mesh] | ||
=Chandan Bose= | =Chandan Bose= |
Revision as of 10:18, 5 September 2023
This is a list of the contributions ordered alphabetically by the contributors.
Go back to Tutorials.
Contents
- 1 Michael Alletto
- 2 Chandan Bose
- 3 Isabelle Choquet and Håkan Nilsson
- 4 Gerasimos Chourdakis
- 5 Luís Ferrás, Célio Fernandes and J.M. Nóbrega
- 6 Lionel Gamet
- 7 Bernhard Gschaider
- 8 Joel Guerrero
- 9 Bahram Haddadi and Christian Jordan
- 10 Gerhard Holzinger
- 11 Tobias Holzmann
- 12 Andras Horvath
- 13 Kenneth Hoste and Hrvoje Jasak
- 14 Luofeng Huang
- 15 Komal Kedarnath G
- 16 Victoria Korchagova, Matvey Kraposhin and Sergei Strijhak
- 17 Matvey Kraposhin and Ilia Marchevsky
- 18 Robert Lee
- 19 Nikola Majksner and Wouter Remmerie
- 20 József Nagy
- 21 József Nagy, Bahram Haddadi and Christian Jordan
- 22 Håkan Nilsson
- 23 Franco Otaola
- 24 Stefan Radl
- 25 Henrik Rusche
- 26 Bruno Santos et al.
- 27 Bruno Santos, Nelson Marques and Manoel Silvino Araújo
- 28 Gavin Tabor
- 29 Alexander Vakhrushev
- 30 Divyesh Variya (DD Fluids)
Michael Alletto
- Settling sphere
- Settling Sphere Contact Angle
- 2D flapping wing
- Inline oscillating cylinder
- Transonic flow around a periodically pitching NACA0012 airfoil
- Transonic flow around the 3D Onera M6 wing at an angle of attack of 3.06°
- One degree of freedom spring-mass-damper system without fluid forces
- 2D oscillating elastically mounted cylinder under the influence of fluid forces
- AMR of the flow around a supersonic sphere at Re = 300 and Ma = 1.2
- Simulation of the bubble growth and detachment with interIsoFoam: Influence of the boundary conditions and domain size
- Simulation of the bubble growth and detachment with interIsoFoam: Influence of temporal and spacial resolution
- Dynamic stall simulation of an incompressible flow around a NACA0012 wing
- Coupling the motion of a membrane with pretension to point the displacement of the mesh
- Coupling the motion of a simple non linear membrane model to point the displacement of the mesh
Chandan Bose
Isabelle Choquet and Håkan Nilsson
Gerasimos Chourdakis
Luís Ferrás, Célio Fernandes and J.M. Nóbrega
Lionel Gamet
Bernhard Gschaider
Joel Guerrero
- OpenFOAM Introductory Training
- Turbulence modeling in general CFD and OpenFOAM - Theory and applications
- Multi-phase flows modeling in general CFD and OpenFOAM - Theory and applications
- Introduction to the FVM method. Standard practices in general CFD with applications to OpenFOAM
- Basic solid modeling for CFD using Onshape and mesh generation using OpenFOAM tools
- Moving meshes, rigid body motion, adaptive mesh refinement, and overset meshes
- Tutorial 1: The driven cavity revisited
- Tutorial 2: Hagen Poiseuille flow
- Tutorial 3: 2D Circular cylinder - Vortex shedding
- Tutorial 4: 3D Square cylinder - Vortex shedding and turbulence modeling
- Tutorial 5: Hairpin vortices
- Tutorial 6: Multi-phase flows using the VOF method
- Tutorial 7: Supersonic flow past a wedge
- Tutorial 8: Supersonic flow past an expansion corner
- Tutorial 9: Sod's shock tube
- Tutorial 10: Automotive simulation - DrivAer model validation
Bahram Haddadi and Christian Jordan
- BlockMesh
- Discretization
- First Case
- First simulation
- Grid Convergence
- Multiphase (VOF)
- Parallelization
- Reacting flow
- Sampling
- SnappyHexMesh – Multi region
- SnappyHexMesh – Single region
- Steady-state turbulence modeling
- Tips
- T-junction
- Turbulence modeling
Gerhard Holzinger
Tobias Holzmann
- Numerical scheme analyzing
- Drag coefficient of a monkey head - Suzanne
- How To Build a complete OpenFOAM Project - Exhaust manifold
- Creation of a complete OpenFOAM Project - The Rock Vapor Classic (Smoking Pipe)
- Code Development
- Case collection
- The humidityRhoThermo Library
Andras Horvath
Kenneth Hoste and Hrvoje Jasak
- Finite_Volume_Discretization
- Introduction to OpenFOAM: A User View
- Multi-Phase and Free Surface Flows
- Programming
Luofeng Huang
Komal Kedarnath G
Victoria Korchagova, Matvey Kraposhin and Sergei Strijhak
Matvey Kraposhin and Ilia Marchevsky
Robert Lee
Nikola Majksner and Wouter Remmerie
József Nagy
- Installing OpenFOAM in Windows 10 and Ubuntu
- Multiphase (VOF) Simulation Project
- Rotating Fan in Room
- Meshing with cfMesh
- Faucet and Sink
József Nagy, Bahram Haddadi and Christian Jordan
- blockMesh
- Discretization
- First simulation
- Grid convergence
- Installing
- Multiphase modeling (VOF)
- Parallelization
- Running your first case
- Stationary turbulence modelling (RAS)
- Transient turbulence modelling (RAS,LES)
- Transport equation
Håkan Nilsson
- Basic introduction to OpenFOAM
- Basics of C++
- Basics of programming in OpenFOAM
- Advanced programming in OpenFOAM
- Course of Håkan Nilsson with >150! tutorial cases
Franco Otaola
Stefan Radl
Main
- Session 0: Basics and Introduction
- Session A: What can you do with OpenFOAM?
- Session B: Usage of OpenFOAM (includes DPMFoam and MPPICFoam)
- Session C: Understand and Modify OpenFOAM
- Session D: Integration with FreeCAD
- Session E: Advanced Case Setup with Complex CAD
- Session F: Introducing a Time Step limitation due to high viscosity
Appendices
- Appendix A: Files & Other
- Appendix B: Templates (e.g., for plotting)
- Appendix C: Paraview Details
- Appendix D: external Case Studies
- Appendix E: Debuggers and Profiling
- Appendix F: OpenFOAM in Windows 10: The OpenSUSE Shell
Henrik Rusche
Bruno Santos et al.
Bruno Santos, Nelson Marques and Manoel Silvino Araújo
Gavin Tabor
- Action car case
- Writing new boundary conditions
- Simulating chocolate
- A detailed look at fvSchemes and fvSolution