Difference between revisions of "Collection by authors"
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* [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] | * [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] | ||
+ | * [https://wiki.openfoam.com/Lid_driven_cavity_with_a_flexible_bottom_surface_Michael_Alletto Lid driven cavity with a flexible bottom surface] | ||
=Chandan Bose= | =Chandan Bose= |
Latest revision as of 12:45, 18 October 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
- Lid driven cavity with a flexible bottom surface
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