Chapter 1: Introduction

1. Differentiate between incompressible and compressible fluids utilizing the continuity equation.

2. Outline and perceive normal ideas in fluid dynamics, similar to viscosity (dynamic and kinematic), Reynolds quantity (laminar and turbulent move), and volumetric move price.

Chapter 2: Vitality Steadiness

3. Derive and apply the Bernoulli equation to develop an power stability for sizing pumps.

4. Perceive the pump equation and its relation to the Bernoulli equation.

5. Apply the pump equation to an illustrative instance.

6. Create system curves for a piping system.

Chapter 3: Friction Headloss

7. Perceive hydraulic resistances in pipes.

8. Outline the Darcy equation and its software in calculating frictional headloss.

9. Outline the resistance coefficient (Ok) and calculate it utilizing totally different strategies.

10. Outline the friction issue (f) and calculate it utilizing numerical strategies by way of the Poiseuille equation, Colebrook equation, Swamee Jain equation, or the Moody chart.

11. Perceive the impact of pipe age on friction issue.

12. Outline move coefficient (Cv) and its software in calculating stress drop.

13. Regulate Cv for liquids with totally different viscosities.

14. Discover the capability move price at totally different stress drops for a given Cv.

15. Convert move coefficient (Cv) to a resistant coefficient (Ok).

16. Perceive the usage of orifice plates and use the orifice design equation to dimension orifice plates.

17. Apply the orifice design equation in an illustrative instance.

Chapter 4: Pumps

18. Establish and perceive the essential elements of a pump.

19. Calculate pumps Hydraulic Horsepower (HHP), Brake Horsepower (BHP), Pump Effectivity, Motor Energy (MP), and Motor Effectivity by an instance.

20. Perceive pump curves (head vs move price) for various impeller speeds (or diameters).

21. Perceive pump effectivity curves.

22. Perceive Pumps Internet Constructive Suction Head Required (NPSHr) Curve.

23. Perceive Pump Energy Consumption Curve.

Chapter 5: System Modeling and Pump Sizing Roadmap

24. Mannequin resistance in collection for a piping system.

25. Develop a roadmap for correct collection of pumps.

Chapter 6: Case Examine 1

26. Apply the pump sizing roadmap utilizing Macros in Excel to pick an acceptable pump for a real-world case research.

Chapter 7: Management Valves

27. Establish several types of management valves and their functions.

28. Perceive the inherent valve curve and its relation to move price and stress drop.

29. Outline valve authority and its significance in valve choice.

30. Measurement valves appropriately for a given system.

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