A summary of a comprehensive experimental study on flow boiling heat transfer is presented for five refrigerants (R134a, R123, R402A, R404A, and R502) evaporating inside plain, horizontal, copper tube test sections. The test data were obtained for both 12.00 mm and 10.92 mm diameters using hot water as the heating source. Besides confirming known trends in flow boiling heat transfer data as a function of test variables, it was also proven that the heat flux level at the dryout point at the top of the tube in annular flow has a very significant downstream effect on heat transfer coefficients in the annular flow regime with partial dryout.

Issue Section:
Boiling and Condensation
Keywords:
Evaporation, Flow Visualization, Multiphase Flows
Topics:
Boiling, Evaporation, Flow (Dynamics), Heat transfer, Refrigerants, Copper, Flow visualization, Heat flux, Heat transfer coefficients, Heating, Hot water, Multiphase flow
1.
ASHRAE Handbook, 1993, ASHRAE, Atlanta, GA.
2.
Collier, J. G., and Thome, J. R., 1994, Convective Boiling and Condensation, 3rd ed., Oxford University Press, Oxford.
3.
Dittus
F. W.
, and
Boelter
L. M. K.
,
1930
,
University of California (Berkeley) Publications on Engineering
, Vol.
2
, University of California, Berkeley, CA, p.
443
443
.
4.
Eckels
S. J.
, and
Pate
M. B.
,
1991
, “
An Experimental Comparison of Evaporation and Condensation Heat Transfer Coefficients for HFC-134a and CFC-12
,”
Int. J. Refrigeration
, Vol.
14
, pp.
70
77
.
5.
Gnielinski
V.
,
1976
, “
New Equations for Heat and Mass Transfer in Turbulent Pipe and Channel Flow
,”
Int. Chem. Eng.
, Vol.
16
, pp.
359
368
.
6.
Hambraeus
K.
,
1991
, “
Heat Transfer Coefficient During Two-Phase Flow Boiling of HFC-134a
,”
Int. J. Refrigeration
, Vol.
14
, pp.
357
362
.
7.
Kattan, N., 1996, Contribution to the Heat Transfer Analysis of Substitute Refrigerants in Evaporator Tubes with Smooth or Enhanced Tube Surfaces, The`se 1498 (1996), Ecole Polytechnique Fe´de´rale de Lausanne, Switzerland (in English).
8.
REFPROP-Thermodynamic Properties of Refrigerants and Refrigerant Mixtures, version 3.04a, 1992, National Institute of Standards and Technology, Gaithersburg, MD.
9.
Thome
J. R.
, and
Shock
R. A. W.
,
1984
, “
Boiling of Multicomponent Mixtures
,”
Advances in Heat Transfer
, J. P. Hartnett and T. J. Irvine, eds., Academic Press, NY, Vol.
16
, pp.
59
156
.
10.
Thome, J. R., 1990, Enhanced Boiling Heat Transfer, Hemisphere, NY.
11.
Thome, J. R., 1994, “Two-Phase Heat Transfer to New Refrigerants,” 10th Int. Heat Transfer Conf., Vol. 1, Brighton, pp. 19–41.
12.
Thome
J. R.
,
1997
, “
Boiling of New Refrigerants: A State-of-the-Art Review
,”
Int. J. Refrigeration
, Vol.
19
, No.
7
, pp.
435
457
.
13.
Wattelet, J. P., Chato, J. C., Souza, A. L., and Christoffersen, B. R., 1992, “Evaporation Characteristics of R-12, R134a, and MP-39 at Low Fluxes,” ASHRAE Trans., Vol. 100, No. 1.
14.
Wilson
E. E.
,
1915
, “
A Basis for Rational Design of Heat Transfer Apparatus
,”
Trans. ASME
, Vol.
37
, pp.
47
70
.
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