MCG 3341 - FLUID MECHANICS II
COURSE OUTLINE

Lecture Chapters and Sections
Textbook Sections

CHAPTER I:

DIFFERENTIAL TREATMENT OF FLUID MOTION /
COMPUTATIONAL FLUID DYNAMICS

1.1 Differential Equations of Motion
   1.1.1 Continuity Equation for Incompressible Flows
5.1
   1.1.2 Acceleration and Vorticity
5.3
   1.1.3 Momentum Equation
5.4
   1.1.4 Potential Flow
6.7
1.2 Computational Fluid Dynamics
5.5
 

CHAPTER II:

EXTERNAL FLOWS

2.1 Boundary Layers (B.L.)
    2.1.1 The Boundary Layer Concept
9.1
    2.1.2 Boundary Layer Thicknesses
9.2
    2.1.3 Laminar B.L. with Constant Pressure 
9.3 (Web)
    2.1.4 Turbulent B.L. with Constant Pressure
9.5
    2.1.5 Effect of Pressure Gradient
9.6
2.2 Drag
9.7
    2.2.1 Definitions
    2.2.2 Skin Friction
    2.2.3 Form Drag
    2.2.4 Drag Reduction
    2.2.5 Flow-Induced Vibrations
2.3 Lift
9.8
    2.3.1 Definitions
    2.3.2 Lift on 2-D Airfoils
    2.3.3 Finite Wing Effects
    2.3.4 Magnus Effect
 

CHAPTER III

FLUID MACHINERY

3.1 Types of Fluid Machinery
10.1
3.2 Principles of Operation
    3.2.1 The Angular Momentum Principle
4.7
    3.2.2 The Euler Turbomachine Equation
10.2
    3.2.3 Velocity Diagrams
10.2
    3.2.4 Hydraulic Power
10.2
3.3 Pumps
    3.3.1 Dimensionless Groups
7.6
    3.3.2 Performance Characteristics

10.3
    3.3.3 Similarity and Scaling of Pumps

10.3
    3.3.4 Pumping Systems

10.3
    3.3.5 Cavitation

10.3
    3.3.6 Positive Displacement Pumps
10.4

3.4 Fans, Blowers and Compressors
10.3, 10.7

3.5 Hydraulic Turbines

10.5

3.6 Propellers and Wind Turbines
10.6
3.7 Jet Engines
 

CHAPTER IV:

COMPRESSIBLE FLOWS
4.1 Review of Thermodynamics
12.1
4.2 Sound Waves
12.2
4.3 Isentropic Stagnation Properties
12.3, 12.4
4.4 Isentropic Flow in Ducts
13.1, 13.2
4.5 Normal Shock Waves
13.3
4.6 Flow in Ducts with Shocks
13.4

4.7 Oblique Shocks
13.7