Steady-state nucleate boiling heat transfer experiments in saturated and subcooled water were conducted. The heating surface was a 0.305 m hemispherical aluminum vessel heated from the inside with water boiling on the outside. It was found that subcooling had very little effect on the nucleate boiling curve in the high heat flux regime where latent heat transport dominated. On the other hand, a relatively large effect of subcooling was observed in the low-heat-flux regime where sensible heat transport was important. Photographic records of the boiling phenomenon and the bubble dynamics indicated that in the high-heat-flux regime, boiling in the bottom center region of the vessel was cyclic in nature with a liquid heating phase, a bubble nucleation and growth phase, a bubble coalescence phase, and a large vapor mass ejection phase. At the same heat flux level, the size of the vapor masses was found to decrease from the bottom center toward the upper edge of the vessel, which was consistent with the increase observed in the critical heat flux in the flow direction along the curved heating surface.

1.
Bergles
A. E.
, and
Thompson
W. G.
,
1970
, “
The Relationship of Quench Data to Steady State Pool Boiling Data
,”
Int. J. Heat Mass Transfer
, Vol.
13
, pp.
58
68
.
2.
Cheung, F. B., Haddad, K., Chamra, L., Otero, F., and Brundage, A., 1994, “Boundary Layer Boiling on the External Bottom Surface of a Hemispherical Vessel,” ANS Winter Meeting, 10th Proc. of Nuclear Thermal Hydraulics, pp. 155–162.
3.
Chu, T. Y., Brainbridge, B. L., Bentz, J. H., and Simpson, R. B., 1994, “Observations of Quenching Downward Facing Surfaces,” Sandia Report No. SAND93-0688.
4.
Chu, T. Y., Bentz, J. H., and Simpson, R. B., 1995, “Observation of the Boiling Process From a Large Downward-Facing Torispherical Surface,” Proc. 30th National Heat Transfer Conference.
5.
Dix
D.
, and
Orozco
J.
,
1990
, “
An Experimental Study in Nucleate Boiling Heat Transfer From a Sphere
,”
ASME JOURNAL OF HEAT TRANSFER
, Vol.
112
, pp.
258
263
.
6.
Flynn
T. M.
,
Draper
J. W.
, and
Roos
J. J.
,
1961
, “
The Nucleate and Film Boiling Curve of Liquid Nitrogen at One Atmosphere
,”
Adv. Cryogenic Eng.
, Vol.
7
, pp.
537
545
.
7.
Gaertner
R. F.
,
1965
, “
Photographic Study of Nucleate Pool Boiling on a Horizontal Surface
,”
ASME JOURNAL OF HEAT TRANSFER
, Vol.
87
, pp.
17
29
.
8.
Haddad, H. K., Cheung, F. B., and Liu, Y. C., 1995, “Spatial Variation of the Critical Heat Flux on a Downward Facing Hemispherical Surface,” Proc. 30th National Heat Transfer Conference, Vol. 14, pp. 23–32.
9.
Haselden
G. G.
, and
Peters
J. I.
,
1949
, “
Heat Transfer to Boiling Liquid Oxygen and Liquid Nitrogen
,”
Trans. of the Institution of Chemical Engineers
, Vol.
27
, pp.
201
208
.
10.
Hwalek, J. J., 1982, “The Quenching Method of Determining Boiling Curves on Spheres,” Ph.D Thesis, Department of Chemical Engineering, University of Illinois, Urbana, IL.
11.
Katto
Y.
, and
Haramura
Y.
,
1983
, “
Critical Heat Flux on a Uniformly Heated Horizontal Cylinder in an Upward Cross Flow of Saturated Liquid
,”
Int. J. Heat Mass Transfer
, Vol.
26
, No.
8
, pp.
1199
1205
.
12.
Lance
R. P.
, and
Myers
J. E.
,
1958
, “
Local Boiling Coefficient on a Horizontal Tube
,”
AIChE J.
, Vol.
4
, No.
1
, pp.
75
80
.
13.
Liu, Y. C., 1995, “Inverse Heat Conduction in a Segmented Hemispherical Vessel With Downward Facing Boiling Boundary Conditions,” M.S. Thesis, The Pennsylvania State University, University Park, PA.
14.
Rhea
L. G.
, and
Nevins
R. G.
,
1968
, “
Nucleate Boiling Heat Transfer From an Oscillating Sphere in Liquid Nitrogen
,”
Adv. Cryogenic Eng.
, Vol.
14
, pp.
178
184
.
15.
Subramanian
S.
, and
Witte
L. C.
,
1987
, “
Quenching of a Hollow Sphere
,”
ASME JOURNAL OF HEAT TRANSFER
, Vol.
109
, pp.
262
264
.
16.
Theofaneous
T. G.
,
Syri
S.
,
Salmassi
T.
,
Kyma¨la¨inen
O.
, and
Tuomisto
H.
,
1994
, “
Critical Heat Flux Through Curved, Downward Facing, Thick Walls
,”
Nuclear Engineering and Design
, Vol.
151
, pp.
247
258
.
17.
Thibault, J., and Hoffman, T. W., 1978, “Local Boiling Heat Flux Density Around a Horizontal Cylinder Under Saturated and Subcooled Conditions,” Proc. Sixth Int. Heat Transfer Conf., Toronto, Vol. 1, pp. 199–204.
18.
Verez
D. R.
, and
Florschuetz
L. W.
,
1971
, “
A Comparison of Transient and Steady-State Pool-Boiling Data Obtained Using the Same Heating Surface
,”
ASME JOURNAL OF HEAT TRANSFER
, Vol.
93
, pp.
229
232
.
This content is only available via PDF.
You do not currently have access to this content.