|
Class #
or Lab #
|
Date
|
Important Concepts
(Section # in Text Reading, Lecture note)
Examples/Lab
Activities
|
Problems Assigned,
due next class day: by
5:00 pm
|
|
1
|
Aug 20
|
Definition fluid; continuum hypothesis; fluid
properties
(Text 1.1 - 1.5, Lecture Ch.1)
Example: Density (1.28)
|
1.32
(g,r,SG)
1.41 (ideal
gas)
|
|
2
|
22
|
Viscosity, shear stress and rate of strain;
compressibility; vapor pressure/cavitation;
surface tension and capillary effects; flow
classification
(Text 1.6-1.11, Lecture Ch.1)
Example1: Shear stress (1.59)
Example2:
Surface tension (1.100)
|
1.63 (t)
1.76 (Ev)
|
|
3, L1
|
24
|
Fluid Mechanics: AFD, EFD, and CFD
|
1.91 (pv)
1.102 (s)
|
|
4
|
27
|
Pressure definition, force, and transmission;
absolute/gage/vacuum;
pressure variation with elevation liquids/gases;
pressure measurement (barometer, piezometer, manometers)
(Text 2.1-2.7, Lecture Ch.2)
Example1:
pressure variation (2.9)
Example2:
standard atmosphere (2.16)
|
2.14 (pressure variation)
2.19 (gases; standard atmosphere)
|
|
5, L2
|
29
|
Experimental
Methodology and Uncertainty Assessment Procedures: EFD
EFD Pre-test
|
|
|
6
|
31
|
Hydrostatic forces on plane surfaces
(Text 2.8-2.9, Lecture Ch.2)
Example1: Manometer
Example2:
differential manometer
Concepts of EFD Lab 1
|
2.32 (u-tube
manometer)
2.42
(differential manometer)
quiz 1
|
|
|
Sep 3
|
Labor
Day: No Class
|
|
|
L3
|
4
|
EFD
Lab1 (1)
|
|
|
7
|
5
|
Continued
Example1: Plane surface (1)
Example2: Plane surface (2)
|
2.67, 2.72 (plane surface)
|
|
L3
|
6
|
EFD
Lab1 (2)
|
|
|
8
|
7
|
Hydrostatic forces curved surfaces (horizontal and
vertical components); buoyancy; hydrometer
(Text 2.10-2.11,
Lecture Ch.2)
Example1:
Curved surface (1)
Example2:
Curved surface (2)
Example3:
Curved surface (3) (2.84)
Example4:
Curved surface (4) (2.92)
|
2.88, 2.93 (curved surface)
|
|
9
|
10
|
Stability immersed and floating bodies
(Text 2.11, Lecture
Ch.2)
Example:
Buoyancy (2.98)
|
2.99, 2.104 (buoyancy)
|
|
L3
|
11
|
EFD
Lab1 (3)
|
|
|
10
|
12
|
Continued
Example:
Stability
Rigid body translation and rotation
(Text 2.12, Lecture Ch.2)
|
SP.1, SP.2 (stability)
quiz 2
|
|
L3
|
13
|
EFD
Lab1 (4)
|
|
|
11
|
14
|
Continued
Example1: Translation (1) (2.111)
Example2: Translation (2)
Example3: Translation (3)
Example4: Rotation (1)
Example5: Rotation (2)
Example6: Rotation (3) (2.117)
|
2.113
(translation)
2.118
(rotation)
|
|
12
|
17
|
Newton's 2nd Law for a Fluid, Steamline Coordinates, Bernoulli equation
(Text 3.1-3.4, Lecture Ch.3)
Example1: Bernoulli equation (along
streamline) (3.2)
Example2: Bernoulli equation (normal
to streamline) (3.13)
|
3.5
(Euler Eq., along streamline)
3.14
(Euler Eq., normal to streamline)
|
|
L4
|
18
|
EFD
Lab2 (1)
|
|
|
13
|
19
|
Static Dynamic and total pressure, applications
Bernoulli equation, Flow Rate
(Text 3.5-3.6, Lecture Ch.3)
Example1: Bernoulli equation (Q)
Example2: Bernoulli equation
(static and total pressure) (3.51)
Concepts
of EFD Lab 2 & CFD Lab 1
|
3.52
(Bernoulli equation, Q)
3.48
(Bernoulli equation, stagnation pressure)
|
|
L4
|
20
|
EFD
Lab2 (2)
|
|
|
14
|
21
|
Limitations Bernoulli equation
(Text 3.7-3.9, Lecture Ch.3)
Example1: Bernoulli equation (along
streamline)
Example2: Bernoulli equation
(circular disk) (3.97)
Example3: Bernoulli equation
(channel flow) (3.101)
Fluid kinematics, velocity, acceleration
(Text 4.1 - 4.2, Lecture Ch.4)
|
3.98
(Bernoulli equation, conical plug)
3.111
(Bernoulli equation, channel flow)
quiz3
|
|
15
|
24
|
Continued, fluid kinematics, velocity,
acceleration
Example: Velocity (4.5)
|
4.9, 4.10 (velocity)
|
|
L4
|
25
|
EFD
Lab2 (3)
|
|
|
16
|
26
|
Flow classification
Example1: Acceleration (1) (4.24)
Example2: Acceleration (2)
|
4.29, 4.32 (acceleration)
|
|
L4
|
27
|
EFD
Lab2 (4)
|
EFD Lab1 Report Due: 5:00 p.m.
|
|
17
|
28
|
Review 1
|
quiz4
|
|
18
|
Oct 1
|
EXAM 1
|
|
|
19, L5
|
3
|
Introduction to Computational Fluid Dynamics
CFD Pre-test
|
|
|
20
|
5
|
Control volume approach and RTT
(Text 4.3-4.5, Lecture Ch.4)
Example1: RTT (1) (4.71)
Control Volume Analysis, continuity equation
(Text 5.1, Lecture
Ch.5)
Example:
Continuity (5.14)
|
4.72 (RTT)
5.15 (continuity)
|
|
21
|
8
|
Continued, continuity equation
Example1: Steady flow continuity
(5.19)
Example2: Unsteady flow continuity
(5.25)
Example3: Falling cylinder
|
5.21
(steady flow continuity)
5.26
(unsteady flow continuity)
|
|
L6
|
9
|
CFD PreLab1 (1)
|
|
|
22
|
10
|
Momentum Equation
(Text 5.2, Lecture Ch.5)
Example: Momentum, jet (5.38)
|
5.50, 5.66 (momentum, jet)
|
|
L6
|
11
|
CFD
PreLab1 (2)
|
|
|
23
|
12
|
Continued
Example1: Momentum, Bend
Example2: Momentum, nozzle (5.41)
Example3: momentum, vane (5.62)
Example4:
Sluice gate (5.55)
Example5:
Moving vane
|
5.57 (momentum, bend)
5.45 (momentum,
nozzle)
|
|
24
|
15
|
Energy equation
(Text 5.3-5.5, Lecture Ch.5)
Example:
Head loss (5.96)
|
5.101, 5.104 (head loss)
quiz5
|
|
L7
|
16
|
CFD Lab1 (1)
|
|
|
25
|
17
|
Concept of Hydraulic and Energy Grade Lines
Example1:
Energy, pump (5.111)
Example2:
Energy, turbine (5.113)
|
5.112
(energy, turbine)
5.121
(energy, pump)
|
|
L7
|
18
|
CFD Lab1 (2)
|
EFD Lab2 Report Due: 5:00 p.m.
|
|
26
|
19
|
Application of the Energy, Momentum, and Continuity
Equations in Combination
Example1:
Energy + momentum (1)
Example2:
Energy + momentum (2)
Example3:
Sluice gate
Differential Analysis, relative motion, vorticity,
continuity, and stream function
(Text 6.1-6.2, Lecture Ch.6)
|
5.127, 5.128 (energy + momentum)
quiz6
|
|
27
|
22
|
Continued
Example1: Vorticity (6.5)
Example2:
Continuity (6.13)
Example3:
Stream function (6.15)
Momentum equation and differential analysis of
fluid flow
(Text 6.3, 6.8-6.11, Lecture Ch.6)
|
6.14
(vorticity)
6.16 (stream
function)
|
|
L8
|
23
|
EFD
Lab3 (1)
|
|
|
28
|
24
|
Continued
Example1:
Exact solution of NS (flow between fixed plates) (6.85)
Example2:
Exact solutions of NS (Couette flow) (6.89)
Concepts of EFD Lab 3 & CFD Lab 2
|
6.84
(flow between fixed plates)
6.90
(liquid layer)
quiz7
|
|
L8
|
25
|
EFD
Lab3 (2)
|
|
|
29
|
26
|
Continued
Example1: Exact solutions of NS
(Poiseuille flow) (6.100)
Example2: Exact solutions of NS
(concentric cylinders) (6.105)
Dimensional homogeneity; dimensional
analysis; Pi theorem; Important non-dimensional parameters
(Text 7.1-7.7, Lecture Ch.7)
|
6.104
(pipe flow)
6.106
(concentric cylinders)
|
|
30
|
29
|
Continued
Example1: Pi parameters (1)
(7.16)
Example2:
Pi parameters (2) (7.23)
|
7.10, 7.21 (Pi parameters)
quiz8
|
|
L8
|
30
|
EFD
Lab3 (3)
|
|
|
31
|
31
|
Similarity and model testing
(Text 7.8-7.11, Lecture Ch.7)
Example1: Re similarity (1) (7.43)
Example2: Fr similarity (1) (7.75)
Example3: Re similarity (2)
Example4: Fr similarity (2)
EFD Lab3 concepts: drag calculation
|
7.40 (Re
similarity)
7.49 (Fr
similarity)
|
|
L8
|
Nov 1
|
EFD
Lab3 (4)
|
CFD Lab1 Report Due: 5:00 p.m.
|
|
32
|
2
|
Review 2
|
quiz9
|
|
33
|
5
|
EXAM 2
|
|
|
L9
|
6
|
CFD
PreLab2 (1)
|
|
|
34
|
7
|
Viscous Flow in Pipes, entrance and developing
flow, laminar flow, friction factor
(Text 8.1-8.2, Lecture Ch.8)
Example:
Laminar pipe flow
|
8.20, 8.27 (laminar)
|
|
L9
|
8
|
CFD
PreLab2 (2)
|
|
|
35
|
9
|
Turbulent flow
(Text 8.3, Lecture Ch.8)
Example: Turbulent pipe flow (8.35)
|
8.34, 8.38 (turbulent)
|
|
36
|
12
|
Roughness, application pipe systems
(Text 8.4-8.7, Lecture Ch.8)
Example1: Friction factor
Example2:
Head loss (8.74)
Example3: Friction factor
Example4:
Head loss
|
8.46
(head loss)
8.55 (f)
|
|
L10
|
13
|
CFD Lab2 (1)
|
|
|
37
|
14
|
Continued,
Example1: Head loss
(8.50)
Example2: Flow rate
Example3: Pipe diameter (1)
Example3: Pipe diameter (2)
Example5:
Pipe diameter (3) (8.80)
|
8.94 (flow rate)
8.101 (pipe diameter)
|
|
L10
|
15
|
CFD Lab2 (2)
|
EFD Lab3 Report Due:
5:00 p.m.
|
|
38
|
16
|
Minor losses,
Example1: Minor losses (1)
Example2:
Minor losses (2)
Example3:
Minor losses (3)
Example4: Minor losses (4) (8.81)
Example5: Minor
losses (5) (8.72)
Example6:
Minor losses (6) (8.99)
|
8.61, 8.76 (minor losses)
quiz10
|
|
|
19
|
|
|
|
|
20
|
|
|
|
|
21
|
Thanksgiving Recess
|
|
|
|
22
|
|
|
|
|
23
|
|
|
|
39
|
26
|
Flow over immersed bodies, lift and drag, boundary
layer theory
(Text 9.1-9.2, Lecture Ch.9)
Example1: Laminar BL (1)
Example2:
Laminar BL (2)
Summary of EFD and CFD study for the flow around Clark-Y
airfoil
|
9.20, 9.21 (laminar BL)
|
|
40
|
28
|
Laminar boundary layer,
continued
Example1: Laminar BL drag (9.48)
Example2: Transitional BL drag (9.51)
|
9.35
(laminar drag)
9.27
(transitional drag)
|
|
41
|
30
|
Turbulent boundary layer
Example: Turbulent BL velocity
profile
|
SP.4, SP.5 (turbulent flat plate
drag)
quiz11
|
|
42
|
Dec 3
|
Bluff body drag and lift
(Text 9.3-9.5, Lecture Ch.9)
Example1: Turbulent BL drag (1)
Example2: Turbulent
BL drag
(2)
Example3: Stokes
flow
Example4:
Drag (1) (9.68)
Example5: Drag (2) (9.71)
|
9.69, 9.77 (drag)
|
|
43
|
5
|
Review3
|
9.94, 9.95 (lift)
quiz12
|
|
44
|
7
|
Post-test, Post-survey
|
CFD Lab2 Report
Due: 5:00 p.m.
|
|
|
10
|
Final
Exam:
12:00
- 2:00pm
Shambaugh
Auditorium (Main Library)
|
|