Boundary Layer Theory Course Program  (2):

 

 

Your text book is :

Boundary Layer Theory ,

By : Herrmann Schlichting .

8th Edition, 2000

ISBN 3-540-66270-7 Springer –Verlag

 

 

 

                                                                                                                     

 

  

 

 

See next page for course structure

 

 

 

Course Structure (for B.L. 2)

Course covers following subjects:

 

1 – Experimental results on the Laminar –Turbulent Transition

2 – General Concepts on Boundary layer Transition

3 -  Fundamentals of Stability Theory

4 -  Orr-Sommerfeld Equations, the eigen value problem

5 – Lord Rayleigh Theorem  "Point of inflection criterion"

6 – Curve of Neutral Stability,

7 -  Confirmation of stability theory through experiment

8 – Effect of pressure gradiant

9 – Effect of suction, Heat transfer, Roughness,

10 – Three- Dimentional Instability

11 – Taylor-Gortler vortices, Klebanoff-type, H-type, Tollmien-

          Schlichting Waves

12 – Three-Dimentional Boundary Layers

13 – Fundamentals of Turbulent Flows

14 – Basic Equations for Mean Motion of Turbulent Flows

15 – Description of the Turbulent Fluctuations

16 – Boundary-Layer Equations for Plane Flows

17 – Internal Flows, Including : Couette Flow, Universal Laws of the

 Wall, energy k and normal stresses, sand roughness effects,

18 – Turbulent Models for Internal Flows,

19 – Fully Developed Internal Flows

20 – Turbulent Models: Algebraic Models, Energy Equation, Tow-

          Equation Models, K-ω Wilcox Model, K-L Rotta Model,

          Reynolds Stress Models,

21 – Heat transfer Turbulent Models: Turbulent thermal diffusivity,

          Mixing length for heat transfer, Further models

22 – Large-Eddy Simulation, Direct Numerical Simulation

 

  

Course works shall be announced later