- Test the relaxation from thermal non-equilibrium with ESBGK (CollModel=1) and SBGK (CollModel=2)
- Continuous and quantized treatment of vibrational energy
- Restart from a given state file (additional test if VibQuantData is given)
- T_t = 10000K, T_r=7500K, T_v = 5000K
- Reference file was generated with a weighting factor of 100
- Relevant parameter
- Particles-BGK-CollModel = 1,2
- Particles-SBGK-EnergyConsMethod=1 (only relevant for CollModel=2)
- Particles-BGK-DoVibRelaxation=T
- Particles-BGK-UseQuantVibEn=T,F
- Particles-BGK-DoCellAdaptation=F
- Particles-BGK-MinPartsPerCell=20
- PartDensity = 1E23
- MacroParticleFactor = 500
- RotRelaxProb = 0.2
- VibRelaxProb = 0.05
- Theoretical equilibrium temperature is 5960K (see Pfeiffer, M., Nizenkov, P., Mirza, A., and Fasoulas, S. (2016). Direct simulation Monte Carlo modeling of relaxation processes in polyatomic gases. Physics of Fluids 28(2), 027103.)