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.
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The Temperature Rise at the Surface of a Liquid Layer Subject to a Concentrated Heat Source Placed Above the Layer
J. P. Burelbach,
J. P. Burelbach
Fauske & Associates, Inc., 16W070 West 83rd Street, Burr Ridge, IL 60521
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M. Epstein,
M. Epstein
Fauske & Associates, Inc., 16W070 West 83rd Street, Burr Ridge, IL 60521
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M. G. Plys
M. G. Plys
Fauske & Associates, Inc., 16W070 West 83rd Street, Burr Ridge, IL 60521
Search for other works by this author on:
J. P. Burelbach
Fauske & Associates, Inc., 16W070 West 83rd Street, Burr Ridge, IL 60521
M. Epstein
Fauske & Associates, Inc., 16W070 West 83rd Street, Burr Ridge, IL 60521
M. G. Plys
Fauske & Associates, Inc., 16W070 West 83rd Street, Burr Ridge, IL 60521
J. Heat Transfer. May 1996, 118(2): 374-380 (7 pages)
Published Online: May 1, 1996
Article history
Received:
August 1, 1995
Revised:
November 1, 1995
Online:
December 5, 2007
Citation
Burelbach, J. P., Epstein, M., and Plys, M. G. (May 1, 1996). "The Temperature Rise at the Surface of a Liquid Layer Subject to a Concentrated Heat Source Placed Above the Layer." ASME. J. Heat Transfer. May 1996; 118(2): 374–380. https://doi.org/10.1115/1.2825854
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