Simulation of internal, turbulent, incompressible flow through a mixing channel. Simulation of internal, turbulent, incompressible flow in a unit cell of a 2D pin-fin heat exchanger. Simulation of internal, laminar, incompressible flow in a differentially-heated cavity under the influence of gravity (classical natural convection case). Simulation of internal, laminar, incompressible flow over a backward-facing step with an inlet velocity profile input from file. Simulation of external, viscous, incompressible flow around the NACA 0012 using a turbulence model. Simulation of external, turbulent incompressible flow over a flat plate (classical RANS case). Simulation of external, laminar, incompressible flow over a flat plate (classical Navier-Stokes case). Simulation of compressible flow in a nozzle using non-ideal thermodynamic models.Ī simulation of internal, inviscid, incompressible flow around a NACA 0012 hydrofoil. Non-ideal compressible flow in a supersonic nozzle.Perform uncertainty quantification of errors arising due to assumptions inherent in turbulence models. Epistemic Uncertainty Quantification of RANS predictions of NACA 0012 airfoil.Simulation of unsteady, external, viscous flow around an airfoil. Simulation of external, viscous flow around a 3D geometry (isolated wing) using a turbulence model. Simulation of external, transitional flow over a flat plate (transitional latminar-turbulent case). Simulation of external, turbulent flow over a flat plate (classical RANS validation). Simulation of external, laminar flow around a 2D cylinder. Simulation of external, laminar flow over a flat plate (classical Navier-Stokes validation). Simulation of external, inviscid flow around a 3D geometry (isolated wing). Get familiar with a basic supersonic flows with analytical solution. Summary of tutorialsĪ simulation of internal, inviscid flow through a 2D geometry.
LAMINAR FLOW AIRFOIL HOW TO
Note: Before beginning with the tutorials, please make sure to check out the information on how to download and install. You can get all the mesh and config files either by cloning or downloading the tutorial repository or by downloading them separately using the provided links on each tutorial page. More information on the exact learning goals of a tutorial can be seen at the beginning of each. Each tutorial attempts to present new features of SU2 and contains explanations for the key configuration file options.
LAMINAR FLOW AIRFOIL CODE
The tutorials are numbered roughly in order of their complexity and how experienced with the code the user may need to be, noting that the more advanced tutorials may assume the user has already worked through the earlier ones. If you would like to see all of the available config options, we keep a configuration file template in the root directory of the source distribution (see config_template.cfg).
LAMINAR FLOW AIRFOIL MANUAL
Rather than writing a long manual on all available (and constantly evolving) configuration options available in SU2, the approach has been taken to teach the various aspects of the SU2 code through a range of tutorials.
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