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lectures

University of Iowa - Mechanical and Industrial Engineering

 

Fall Semester 2012
Measurements in Fluid Mechanics
058:180

(3 semester hours)

Time& Location: Class: 2:30P –3:20P MWF 3315 SC    Office Hours: 4:00P – 5:00P MWF 223B-5 HL

Syllabus

Class

Date

Topics  (Section # in text reading, Lecture note)

Problems assigned

1

08/20

Fluid properties and continuum hypothesis  (Text 1.1-1.2, Lecture01)

P17: Q1, Q2

2

08/22

Description of flows  (Text 1.3-1.5, Lecture02)

P17: Q4, Q7,Q8

3

08/24

Similarity and flow motion patterns  (Text 1.6-1.7, Lecture03)

P17: Q10, Q14

4

08/27

Measurements systems and their static response (Text 2.1-2.2, Lecture04)

P41: Q1, Q4

5

08/29

Dynamic response of measuring systems  (Text 2.3-2.4, Lecture05)

P42: Q8, P43: Q10,

6

08/31

Measurement uncertainty  (Text 3.1-3.4, Lecture06)

P53: Q2, Q5

7

09/03

University Holiday   

 

8

09/05

Optical experimentation: Nature of light  (Text 5.1-5.2, Lecture07)

P142: Q1,Q2

9

09/07

Optical experimentation: Illumination  (Text 5.3-5.4, Lecture08)

P143:Q11

10

09/10

Optical experimentation: Recording  (Text 5.5-5.6, Lecture09)

P143:Q13

11

09/12

Producing desired flow  (Text 6.1-6.3, Lecture 10)

P165: Q1, Q2

12

09/14

Wind tunnel, water tunnel and towing tank  (Text 6.4-6.7, Lecture11)

P165: Q5

13

09/17

Midterm examination   

 

14

09/19

Pressure-measuring instrumentation   (Text 8.1-8.2, Lecture12)

P203: Q1

15

09/21

Wall & in-flow pressure measurement  (Text 8.3-8.5, Lecture13)

P204: Q7

16

09/24

Flow rate measurement 1  (Text 9.1-9.4, Lecture14)

P219: Q1

17

09/26

Flow rate measurement 2  (Text 9.5-9.15, Lecture15)

P219: Q2

18

09/28

Flow visualization with marker techniques  (Text 10.1-10.2, Lecture16)

P245: Q2

19

10/01

Flow visualization with optical techniques  (Text 10.3-10.5, Lecture17)

P246:Q6

20

10/03

Thermal anemometry  (Text 11.1, Lecture18)

P284: Q1

21

10/05

Laser Doppler velocimetry  (Text 11.2, Lecture19)

P286: Q8

22

10/08

Particle displacement methods etc.  (Text 11.3-11.5, Lecture20)

P287: Q9

23

10/10

Temperature measurement  (Text 12.1-12.2, Lecture21)

P305: Q6

24

10/12

Composition measurement  (Text 13.1-13.7, Lecture22)

P323: Q1

25

10/15

Wall shear stress measurement  (Text 14.1-14.6, Lecture23)

P342: Q1

26

10/17

Midterm examination   

 

27

10/19

Digital image and image processing  (Lecture24)

Class project

28

10/22

Correlation interrogation & FFT acceleration (Lecture25)

Class project

29

10/24

Sub-pixel displacement  (Lecture26)

Class project

30

10/26

Bias error of correlation interrogation (Lecture27)

Class project

31

10/29

Direct correlation & MQD method (Lecture28)

Class project

32

10/31

Interrogation window shift (Lecture29)

Class project

33

11/02

Central difference interrogation (Lecture30)

Class project

34

11/05

Central difference image correction (Lecture31)

Class project

35

11/07

Erroneous vector identification & correction (Lecture32)

Class project

36

11/09

Peak-locking effect (Lecture33)

Class project

37

11/12

Multi-phase flow PIV techniques (Lecture 34)

Class project

38

11/14

Particle image identification & tracking  (Lecture35)

Class project

39

11/16

Micro-scale velocimetry  (Lecture36)

Class project

40

11/19

Thanksgiving break

Class project

41

11/21

Thanksgiving break

Class project

42

11/23

Thanksgiving break

Class project

43

11/26

Stereoscopic Particle Image Velocimetry  (Lecture37, AVI)

Class project

44

11/28

Stereo high-speed imaging  (Lecture38)

Class project

45

11/30

Stereo high-speed motion tracking  (Lecture39)

Class project

46

12/03

Review

Class project

47

12/05

Class project presentation   

 

48

12/07

Class project presentation

 

49

12/10

Final Exam  12:30PM-2:30PM    3315 SC