A focused heat flux on the free surface of a liquid layer gives rise to combined thermocapillary and thermogravitational flow within the layer that dictates the magnitude of the temperature rise achieved at the surface. In the case of a high-boiling-point flammable liquid layer, this temperature rise determines the ignitability of the layer. An unconventional solution technique, which transforms the combined natural convection problem into a nonlinear conductionlike problem, is introduced to derive a convenient relationship between the heater power and size and the maximum liquid surface temperature. This expression depends on the layer thickness and fluid properties, but does not contain any adjustable (empirical) parameters. Experimental data are reported for dodecane layers between 2 and 7 mm thick for heat fluxes up to 63 kW m−2. The data are well correlated by our analytical result.

1.
Abramzon
 
B.
,
Edwards
 
D. K.
, and
Sirignano
 
W. A.
,
1987
, “
Transient, Stratified, Enclosed Gas and Liquid Behavior With Concentrated Heating From Above
,”
J. Thermophysics
, Vol.
1
, pp.
355
364
.
2.
Bird, R. B., Stewart, W. E., and Lightfoot, E. N., 1960, Transport Phenomena, Wiley, New York.
3.
Chan
 
C. L.
,
Chen
 
M. M.
, and
Mazumder
 
J.
,
1988
, “
Asymptotic Solution for Thermocapillary Flow at High and Low Prandtl Numbers Due to Concentrated Surface Heating
,”
ASME JOURNAL OF HEAT TRANSFER
, Vol.
110
, pp.
140
146
.
4.
Epstein, M., Burelbach, J. P., and Plys, M. G., 1995, “Ignitability of Organic Solvent in Hanford Tank C-103 Following Interim Stabilization,” Fauske & Associates, Inc. Report FAI/95-17, Feb.; also, “Surface Temperature Profiles Due to Radiant Heating in a Thermocapillary Channel Flow,” in preparation.
5.
Gear, C. W., 1971, Numerical Initial Value Problems in Ordinary Differential Equations, Prentice-Hall, Englewood Cliffs, NJ.
6.
Gebhart, B., Jaluria, Y., Mahajan, R. L., and Sammaka, B., 1988, Buoyancy-Induced Flows and Transport, Hemisphere, New York.
7.
Hindmarsh, A. C., 1972, “Linear Multistep Methods for Ordinary Differential Equations: Method Formulations, Stability, and the Methods of Nordsieck and Gear,” Lawrence Livermore National Laboratory Report UCRL-51185, Rev. 1, March.
8.
Inamura, T., Arai, M., Taghavi, K., and Saito, K., 1989, “A Simplified Model to Predict Boilover Time in Liquid Pool Fires,” Spring Technical Meeting, Combustion Institute, Dearborn, Ml, Apr. 30-May 2.
9.
Keller
 
J. R.
, and
Bergman
 
T. L.
,
1990
, “
Thermosolutal Inducement of No-Slip Free Surfaces in Combined Marangoni-Buoyancy Driven Cavity Flows
,”
ASME JOURNAL OF HEAT TRANSFER
, Vol.
112
, pp.
363
369
.
10.
Kline, S. J., and McClintock, F. A., 1953, “Describing Uncertainties in Single-Sample Experiments,” Mech. Eng., Jan., pp. 3–8.
11.
Kurosaki
 
Y.
,
Satoh
 
I.
,
Horiuchi
 
T.
, and
Kashiwagi
 
T.
,
1989
, “
Effect of Marangoni Convection on the Temperature Profiles of a Free a Surface Subject to Nonuniform Radiative Heating
,”
Experimental Thermal and Fluid Science
, Vol.
2
, pp.
365
373
.
12.
Lai
 
C.-L.
, and
Chai
 
A.-T.
,
1986
, “
Surface Temperature Distribution Along a Thin Liquid Layer Due to Thermocapillary Convection
,”
Acta Astronautica
, Vol.
3
, No.
11/12
, pp.
655
659
.
13.
Murad
 
R. J.
,
Lamendola
 
J.
,
Isoda
 
H.
, and
Summerfield
 
M.
,
1970
, “
A Study of Some Factors Influencing the Ignition of a Liquid Fuel Pool
,”
Combustion and Flame
, Vol.
15
, pp.
289
298
.
14.
Ross, H. D., Schiller, D. N., Disimile, P. J., and Sirignano, W. A., 1989, “Behavior in Normal and Reduced Gravity of an Enclosed, Liquid/Gas System With Nonuniform Heating From Above,” AIAA Paper No. 89-0070; also, NASA TM-101471.
15.
Ross
 
H. D.
,
1994
, “
Ignition of and Flame Spread Over Laboratory-Scale Pools of Pure Liquid Fuels
,”
Prog. Energy Combust. Sci.
, Vol.
20
, pp.
17
63
.
16.
Schiller
 
D. N.
, and
Sirignano
 
W. A.
,
1992
a, “
Buoyant-Thermocapillary Flow With Nonuniform Supra-Heating: I. Liquid-Phase Behavior
,”
J. Thermophysics and Heat Transfer
, Vol.
6
, No.
1
, pp.
105
113
.
17.
Schiller
 
D. N.
, and
Sirignano
 
W. A.
,
1992
b, “
Buoyant-Thermocapillary Flow With Nonuniform Supra-Heating: II. Two-Phase Behavior
,”
J. Thermophysics and Heat Transfer
, Vol.
6
, No.
1
, pp.
113
120
.
18.
Torrance
 
K. E.
, and
Mahajan
 
R. L.
,
1975
, “
Surface Tension Flows Induced by a Moving Thermal Source
,”
Combustion Sci. Technology
, Vol.
10
, pp.
125
136
.
This content is only available via PDF.
You do not currently have access to this content.