Introduction to Boundary Layer Theory - Some Features of Viscous Flows - Fundamentals ofrnBoundary Layer Theory - Field Equations for Flows of Newtonian Fluids - General Properties ofrnthe Equations of Motion - Exact Solutions of the Navier Stokes Equations - Boundary LayerrnEquations in Plane Flow Plate Boundary Layer - General Properties and Exact Solutions of thernBoundary Layer Equations for Plane Flows - Approximate Methods for Solving the BoundaryrnLayer Equations for Steady Plane Flows - Thermal Boundary Layers without Coupling of thernVelocity Field to the Temperature Field - Thermal Boundary Layers Decoupling of the VelocityrnField to the Temperature Field - Boundary Layer Control Suction Blowing - Axisymmetric andrnThree Dimensional Boundary Layers.rn
Doctor of Philosophy (PhD) in Mechanical Engineering
Data will be available soon!
| content serial | Description |
|---|
| 1 | Introduction |
| 2 | Some Features of Viscous Flows |
| 3 | Fundamentals of Boundary Layer Theoryrn |
| 4 | Field Equations for Flows of Newtonian Fluids |
| 5 | General Properties of the Equations of Motionrn |
| 6 | Exact Solutions of the Navier Stokes Equations |
| 7 | Boundary Layer Equations in Plane Flow Plate Boundary Layer |
| 8 | General Properties and Exact Solutions of the Boundary Layer Equations for Plane Flows |
| 9 | Approximate Methods for Solving the Boundary Layer Equations for Steady Plane Flows |
| 10 | Thermal Boundary Layers without Coupling of the Velocity Field to thernTemperature Fieldrn |
| 11 | Thermal Boundary Layers without Coupling of the Velocity Field to thernTemperature Fieldrn |
| 12 | Thermal Boundary Layers with Coupling of the Velocity Field to the TemperaturernField (Cont.) |
| 13 | Boundary Layer Control Suction Blowing |
| 14 | Boundary Layer Control Suction Blowing (Cont.) |
| 15 | Axisymmetric and Three Dimensional Boundary Layers |
| 16 | Final Examniation |
Start your application
