Nozzle Numerical Simulations

1. Nozzle Numerical Simulations New approach of CFD simulations BGC Meeting 15-09-2017 Przemysław Smakulski

2. Basic differencebetween the models Reynolds-averaged Navier–Stokes Previoussimulations Large eddy simulation Presentsimulation Przemysław Smakulski

3. Boundaryconditions – Paolo’ssimulation p_chamber = 0.1 bar p_in =10 bar Nozzleφ30 mm Przemysław Smakulski

4. CFD simulation. Chamber pressure 𝑝=0.1 [𝑏𝑎𝑟] RANSmodel SteadyState LES model TransientSelectedtime: Convergencecriteria: RMS < Przemysław Smakulski

5. CFD simulation. Chamber pressure 𝑝=0.1 [𝑏𝑎𝑟] RANS model SteadyState ??? LES model TransientSelectedtime: Convergence criteria: RMS < Przemysław Smakulski

6. Theoretical Mach disc dimension – presentsimulationcomparison Przemysław Smakulski

7. Convergencecriteria (RMS) in model with LES RMS <10-6 Przemysław Smakulski

8. Forming a jet – first s Przemysław Smakulski

9. Statistics Przemysław Smakulski

10. T-s diagram for nitrogen p = 10 bar Gas N2 p = 1 mbar Isentropicexpansion Real process Gas/Liquid N2 Solid N2 Przemysław Smakulski

11. Temperature profile Przemysław Smakulski

12. De Laval micro nozzle [1] SEM image of the throat and diverging section of themicro nozzle [1]. Throatarea: 0.0625 [1] - K. Chen, M. Winter, R.F. Huang, Supersonicflow in miniaturenozzles of planarconfiguration, J. MicromechanicsMicroengineering. 15 (2005) 1736–1744. Przemysław Smakulski

13. Simulation of de Lavalnozzle Residiual RMS for SteadyStatecalculations Przemysław Smakulski