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1 B

2

3

4 4

5 Fig

6 Fig. 1-1 d=2. 2 6

7 7

8

9 9

10 Fig cm 2 cm 16 cm ( ) 23 OMEGA cc/min KANOMAX 21ser. Constant temperature Anemometer U

11 TSI MODEL 121-2W Validyne DP45 - CD15 55[Pa].15[cc].15[cc] TEAC DR-M3 1 khz (PHOTRON FASTCAM- Net Max) 1frames/sec 8 11

12 1: Compressor 1:Hot film probe 2: Needle valve 11: Position adjustor 3: Flow meter 12: Anemometer 4: Porous 13: Pressure transducer 5: Chamber 14: Carrier demodulator 6: Orifice 15: High speed video camera 7: Liquid buffer 16: Recorder 8: Surface w ave buffer 17: Light 9: Digital recorder Fig

13 1 Fig. 2-2 Table Fig. 2-2 Table khz Fig. 2-3 Table

14 (a) (c) (b) Fig.2-2 Table.2-1 Vc (cc) (a) 5 (b) (c) 6 (c) 1 (c) 2 (c) 48 14

15 Hot Film Probe Acrylic Orifice X Z L d Fig.2-3 Table.2-2 Orifice1 d(mm) 1. L(mm) 1 x(mm) 3. z(mm).5 15

16 16

17

18 3.1 5cc cc Fig Fig [cc/min] 1 mm 2 [cc/min] 18

19 Hot film Differential pressure [Pa] Bubble volume [cc] s Time step =.6 s (a) q=2 [cc/min] Hot film Differential pressure [Pa] Bubble volume [cc] s Time step =.6 s () q=4 [cc/min] Fig ( 5 [cc]d=1. [mm] ) 19

20 Hot film Differential pressure [Pa] Bubble volume [cc] Time step =.6 s (c) q=5 [cc/min] Hot film Differential pressure [Pa] Bubble volume [cc] s Time step =.6 s (d) q=1 [cc/min] Fig ( 5 [cc]d=1. [mm] ) 2

21 Hot film Differential pressure [Pa] Bubble volume [cc] s Time step =.6 s (e) q=15 [cc/min] Hot film Differential pressure [Pa] s Time step =.9 s (f) q=2 [cc/min] Fig ( 5 [cc]d=1. [mm] ) 21

22 Hot film Differential pressure [Pa] s Time step =.12 s (g) q=25 [cc/min] Hot film Differential pressure [Pa] s Time step =.12 s (h) q=3 [cc/min] Fig ( 5 [cc] d=1. [mm] ) 22

23 Hot film Differential pressure [Pa] s Time step =.24 s (i) q=35 [cc/min] Hot film Differential pressure [Pa] s Time step =.24 s (j) q=4 [cc/min] Fig ( 5 [cc] d=1. [mm] ) 23

24 215 cc/min 2 cc/min 15 cc/min 2 cc/min 1/2 1/2 24

25 Qo Qg Vc Vb Pc? dpc? Pc? Pc???? dt Vc Vc???? Qg Qo? Qg?? dvb dt 215 cc/min) 2 cc/min 1/2 3 cc/min 25

26 Fig cc/min 4 cc/min 5 cc/min (db) Fig

27 Frequency[Hz] f Flow rate [cc/min] f 4 2 Frequency[Hz] Flow rate [cc/min] Fig () 5 [cc]d=1.[mm] 27

28 Hot film Differential pressure [Pa] (a) q=15 [cc/min] Hot film Differential pressure [Pa] () q=23 [cc/min] Fig ( 5 [cc]d=1. [mm]) 28

29 Hot film Differential pressure [Pa] () q=28 [cc/min] Hot film Differential pressure [Pa] () q=35 [cc/min] Fig ( 5 [cc]d=1. [mm]) 29

30 Fig f 1/2 35 cc/min Fig /2 Fig

31 Hot film q=15 cc/min q=19 cc/min q=21 cc/min q=23 cc/min q=25 cc/min Differential pressure [Pa] q=15 cc/min q=19 cc/min q=21 cc/min q=23 cc/min q=25 cc/min.1.2 Fig

32 Fig cc/min1/ cc/min 1/2 25 cc/min 1921 cc/min 23 cc/min

33

34 Fig Fig cc 55 [cc/min] 45 [cc/min] 51[c/min] 34

35 Frequency[Hz] Flow rate [cc/min] -4-6 Fig ccd=1. [mm] 35

36 Fig () 6 [cc]d=1.[mm] 36

37 Frequency[Hz] Flow rate [cc/min] Frequency[Hz] Flow rate [cc/min] -6 Fig () 1 [cc] d=1.[mm] 37

38 Frequency[Hz] Flow rate [cc/min] Frequency[Hz] Flow rate [cc/min] -6 Fig () 2 [cc] d=1.[mm] 38

39 Frequency[Hz] Flow rate [cc/min] Frequency[Hz] Flow rate [cc/min] -6-8 Fig () 48 [cc] d=1.[mm] 39

40 cc 6 cc cc 1 cc 6 cc 2 cc48 cc 4

41 cc, 25 4cc/min Fig cc/min 1/2 4 cc/min 6 cc 13cc/min Fig cc/min 1 1 cc 12 cc/min Fig cc/min 6 cc 2 cc/min 41

42 2 cc Fig cc 48 cc 2 cc Fig cc 2 cc 42

43 Hot film s Time step =.9 s (a) q=25 [cc/min] Hot film s Time step =.22 s (b) q=4 [cc/min] Fig ( [cc] d=1. [mm] ) 43

44 Hot film Differential pressure [Pa] s Time step =.15 s (a) q=1 [cc/min] Hot film Differential pressure [Pa] s Time step =.3 s (b) q=3 [cc/min] Fig ( 6 [cc] d=1. [mm] ) 44

45 Hot film Differential pressure [Pa] s Time step =.18 s (a) q=1 [cc/min] Hot film Differential pressure [Pa] s Time step =.19 s (b) q=2 [cc/min] Fig ( 1 [cc] d=1. [mm] ) 45

46 Hot film Differential pressure [Pa] (a) q=1 [cc/min] Hot film Differential pressure [Pa] (b) q=2 [cc/min] Fig ( 2 [cc]d=1. [mm]) 46

47 Hot film Differential pressure [Pa] () q=25 [cc/min] Hot film Differential pressure [Pa] () q=3 [cc/min] Fig ( 2 [cc]d=1. [mm]) 47

48 Hot film Differential pressure [Pa] (a) q=5 [cc/min] Hot film Differential pressure [Pa] (b) q=1 [cc/min] Fig ( 48 [cc]d=1. [mm]) 48

49 Hot film Differential pressure [Pa] (c) q=2 [cc/min] Hot film Differential pressure [Pa] (d) q=3 [cc/min] Fig ( 48 [cc]d=1. [mm]) 49

50 cc cc 5

51

52

53 4.2 53

54

55 1) Abe, N.et al, Experimental research on nonlinear of bubble formation and interference, proc.32 nd Japan National Heat Transfer Symposium, pp , 2. 2) Terasaka,K.,&Tuge,H, bubble Formation at single orifice in highly viscos licuid,.chemical Engineering of Japan, pp16-165,

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卒業論文 1 2 3 A 4 6 ( ) (Bubble Flow) (Slug Flow) Churn Flow (Annular Flow) 7 Bubble Flow Slug Flow Churn Flow Annular Flow Fig.1.2.1 8 1961 Griffith Wallis..7 1 2.34 198 Taitel Dukler 1983 Fig.1.3.1. Taitel-Dukler

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