Shock Waves and Turbulence - Physical Modeling, Numerical Challenges

Shock Waves and Turbulence - Physical Modeling, Numerical Challenges

International Centre for Theoretical Sciences via YouTube Direct link

New model gives significant improvement

27 of 30

27 of 30

New model gives significant improvement

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Shock Waves and Turbulence - Physical Modeling, Numerical Challenges

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  1. 1 DATE & TIME: Mon, 19 November 2018, 15:00 to
  2. 2 Start
  3. 3 Shock waves and turbulence physical modeling, numerical challenges and practical applications
  4. 4 Shock-turbulence interaction
  5. 5 Shock Waves in Aerospace Vehicles
  6. 6 Astrophysics and Nuclear engineering
  7. 7 Canonical Shock-Turbulence Interaction
  8. 8 Experiments, Simulations & Analysis
  9. 9 Direct numerical simulation
  10. 10 Turbulence kinetic energy
  11. 11 Amplification of Enstrophy
  12. 12 Post-shock thermodynamic field
  13. 13 Linear Interaction Analysis
  14. 14 Shock frame of reference
  15. 15 Integration over 3D spectrum
  16. 16 LIA matches Direct Numerical Simulation
  17. 17 Turbulence kinetic energy
  18. 18 Theoretical Analysis
  19. 19 Baroclinic effect on vorticity
  20. 20 Propagating and decaying regimes
  21. 21 Enhanced Turbulent Heat transfer
  22. 22 Modeling and Simulation
  23. 23 Transport equation for TKE
  24. 24 Shock-boundary layer interaction
  25. 25 Modeling turbulent heat transfer
  26. 26 Lower turbulent Prandtl no. at shock
  27. 27 New model gives significant improvement
  28. 28 High Heat transfer at shock impingement
  29. 29 From Fundamentals to Applied Fluid Mechanics in Hypersonic Flows
  30. 30 Thank you...

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