| S # | Topic |
| 1. | Introduction to the subject, Course outline, Reference books |
| 2. | Gradually varied flow in Open Channels |
| 3. | Dynamic equation of Gradually Varied Flow (GVF) |
| 4. | Classification of channel bed slopes |
| 5. | Classification of surface profiles |
| 6. | Characteristics of flow profiles |
| 7. | Computation of GVF |
| 8. | Sediment Transport in open channels |
| 9. | Types of sediment loads |
| 10. | Initialization of sediment movement |
| 11. | Bed deformation in alluvial stream |
| 12. | Rate of bed loads |
| 13. | Meyer Peter Equation & Einstein’s Equation |
| 14. | Important terms, definition and principal components of a hydro-electric schemes |
| 15. | Water hammer & its Problems |
| 16. | Intro. to pipe flow, Chezy’s and Darcy’s equation, major and minor losses in pipes, Equivalent diameter of compound pipes and pipes in parallel. |
| 17. | Problems on flow through pipes |
| 18. | Looping and Branching pipes |
| 19. | Pipe network & Problems |
| 20. | Steady incompressible flow through pressure conducts |
| 21. | Turbulent flow through pipes |
| 22. | Universal velocity distribution and Prandtil’s mixing length theory |
| 23. | Impulse turbine |
| 24. | Reaction turbine |
| 25. | Centrifugal pump |
| 26. | Reciprocating pump |
Applied Hydraulics
By / June 13, 2024