| Underlying Physical Principles |
| 1 | Course Description. Fundamental Theorem of Kinematics - Convection, Vorticity, Strain. | [B] 78-87
[W] 16-22 |
| 2 | Eulerian vs. Langrangian Description. Convection Relations. | |
| Conservation Laws |
| 3 | Conservation of Mass. Conservation of Momentum. Stress Tensor. | [B] 73-75, 137-151
[S] 47-61
[W] 61-65 |
| 4 | Viscosity. Newtonian Fluids. Vorticity and Circulation. | [W] 23-29, 59-69, 89-91
[K&C] 40-50
[B] 71-99 |
| 5 | Navier-Stokes Equations. Physical Parameters. Dynamic Similarity. | [B] 164-173
[W] 81-94
[S] 15-23
[K&C] 461-462 |
| Thin Shear Layer Approximation |
| 6 | Dimensional Analysis. Dominant Balance and Vscous Flow Classification. | [W] 81-88, 94, 104-107, 114-119, 132-141
[S] 13-18 |
| 7 | Re→∞ Behavior. Thin Shear Layer Equations. TSL Coordinates. | [S] 96-99, 145-148
[W] 218-219, 227-233 |
| 8 | TSL Coordinates. Boundary Conditions. Shear Layer Categories. | |
| 9 | Local Scaling. Falkner-Skan Flows. | [B] 308-314
[S] 201-206
[W] 233-246 |
| Solution Techniques |
| 10 | ODE'S, PDE's, and Boundary Conditions. Well-Posedness. | [W] 77-78
Tannehill, Anderson and Pletcher. Computational Fluid Mechanics And Heat Transfer, 2nd Ed. Taylor and Francis, 1997. Pp. 19-31. |
| 11 | Numerical Methods for ODE's. Discretization. Stability. | Hirsch, C. Numerical Computation of Internal and External Flows. Vol. 1. John Wiley & Sons, 1989. Pp. 267-290.
Tannehill, Anderson and Pletcher. Pp. 76-83. |
| 12 | Finite Difference Methods. Newton-Raphson. | |
| 13 | Integral Methods. Integral Momentum Equation. Thwaites' Method. | [W] 264-274
[S] 191-202 (682-698 Optional)
[C&B] 104-116 |
| 14 | Integral Kinetic Energy Equation. Dissipation Methods. | |
| 15 | Integral Kinetic Energy Equation. Dissipation Methods. (cont.) | |
| Interacting Boundary Layer Theory |
| 16 | Asymptotic Perturbation Theory. Higher-Order Effects. | |
| 17 | 2D Interaction Models: Displacement Body, Transpiration. Form Drag, Stall Mechanisms. | |
| 18 | IBLT Solution Techniques. Iteration Stability. | |
| 19 | Fully-Coupled Iteration. 3-D IBLT. | [S] 449-483
[W] 335-355 |
| Stability and Transition |
| 20 | Small-Perturbation Theory. Orr-Sommerfeld Equation. | [S] 449-483
[W] 335-355 |
| 21 | Small-Perturbation Theory. Orr-Sommerfeld Equation. (cont.) | |
| 22 | Boundary Conditions, Homogeneity, Solution Techniques. | [S] 434-473
[C&B] 290-301 |
| 23 | Transition Mechanisms. Transition Prediction: Local Correlations, Amplification Methods. | [S]
[W] |
| Turbulent Shear Layers |
| 24 | Reynolds Averaging. Prandtl's Analogy. | [S] 496-538
[W] 394-463
[C&B] |
| 25 | Turbulent BL Structure: Wake, Wall Layers. Inner, Outer Variables. Effects of Roughness. | [S] 495-552
[C&B] 160-210
[W] 394-449 |
| 26 | Turbulent BL Structure: Wake, Wall Layers. Inner, Outer Variables. Effects of Roughness. (cont.) | |
| 27 | Equilibrium BL's: Clauser Hypothesis. Dissipation Formulas and Integral Closure. | |
| 28 | Equilibrium BL's: Clauser Hypothesis. Dissipation Formulas and Integral Closure. (cont.) | |
| 29 | Turbulence Modeling and Closure. Algebraic Models. Transport Models. | |
| Compressible Thin Shear Layers |
| 30 | Definition and Implications of Compressibility. Special Solutions. Reynolds Analogy. | [S] 327-330, 340-352
[W] 184-200, 576-616 |
| 31a | Definition and Implications of Compressibility. Special Solutions. Reynolds Analogy. (cont.) | |
| 31b | Approximate Temperature Profile. Reynolds Heat Flux. | |
| 3D Boundary Layer |
| 32 | New Effects: Crossflow, Lateral Dilation, 3D Separation. Governing Equations. | |
| 33 | Coordinate Systems. Characteristics, BC's, and Well-Posedness. | |
| 34 | 3D Characteristics, BC's. Quasi-3D: Constant-Crossflow Approximation. | |
| 35 | 3D Characteristics, BC's. Quasi-3D: Constant-Crossflow Approximation. (cont.) | |
| 36 | 3D Stability Theory. 3D Transition Mechanisms. | [W] 342-344
Reed, H.L. and W.S. Saric, "Stability of Three-Dimensional Boundary Layers". Annual Review of Fluid Mechanics 21 (1989): 235 - 284.
Mack, L.M. "Boundary-layer stability theory", Special Course on Stability and Transition of Laminar Flow, AGARD R-709 (1984): 3-1 - 3-81. |
White, F. Viscous Fluid Flow. McGraw-Hill, 1991. ISBN:0-07-069712-4.