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Open Source CFD @ Budapest University of Technology and Economics 1
Open Source Computational Fluid Dynamics
An MSc course to gain extended knowledge in Computational Fluid Dynamics (CFD) using open source software.
Zoltán Hernádi
Department of Fluid Mechanics
Budapest University of Technology and Economics
Open Source CFD @ Budapest University of Technology and Economics 2
Turbulent flows
Open Source CFD @ Budapest University of Technology and Economics 3
Turbulence modeling
Open Source CFD @ Budapest University of Technology and Economics 4
Some of the RAS turbulence models
Open Source CFD @ Budapest University of Technology and Economics 5
Some of the LES turbulence models
Open Source CFD @ Budapest University of Technology and Economics 6
Wall functions for RAS turbulence
Standard wall functions: y+ < 5 or 30 < y+ < 300.
→UserGuide 7.2.2
Open Source CFD @ Budapest University of Technology and Economics 7
Compressible flows
• Incompressible model: ρ = constant → kinematic equations, e.g. Pa → m2/s2
• Compressible model: ρ is based on equationOfState, e.g. perfectGas: ρ = p/RT
• Constant temperature air:
– If Δρ/ρ = 0.05 → Δp/p = 0.05 → Δp = 5000 Pa
– 5000 Pa dynamic pressure → 92 m/s air speed
– If Ma < 0.27, then incompressible model for air is 5% accurate!
• Historically: pEqn for incompressible, rhoEqn for compressible.
Open Source CFD @ Budapest University of Technology and Economics 8
Example: supersonic forward facing step
