Issue Section:
Technical Briefs
1.
Burelbach
J. P.
Epstein
M.
Plys
M. G.
1996
, “The Temperature Rise at the Surface of a Liquid Layer Subject to a Concentrated Heat Source Placed Above the Layer
,” ASME JOURNAL OF HEAT TRANSFER
, Vol. 118
, pp. 374
–380
.2.
Burgess, D. S., Grumer, J., and Wolfhard, H. G., 1961, “Burning Rates of Liquid Fuels in Large and Small Open Trays,” Proc. Int’l Symp. on the Use of Models in Fire Research, Publication 786, National Academy of Sciences, Washington, DC, pp. 68–75.
3.
Burgoyne
J. H.
Roberts
A. F.
1968
, “The Spread of Flame Across a Liquid Surface III. A Theoretical Model
,” Proc. Roy. Soc. London
, Vol. A308
, pp. 69
–79
.4.
Di Blasi, C., Crescitelli, S., and Russo, G., 1990, “Model of Pulsating Flame Spread Across Liquid Fuels,” 23rd Symposium on Combustion, The Combustion Institute, pp. 1669–1675.
5.
Epstein
M.
Burelbach
J. P.
Plys
M. G.
1997
, “Surface Temperature Profiles Due to Radiant Heating in a Thermocapillary Channel Flow
,” ASME JOURNAL OF HEAT TRANSFER
, Vol. 119
, pp. 137
–141
.6.
Mackinven
R.
Hansel
J. G.
Glassman
I.
1970
, “Influence of Laboratory Parameters on Flame Spread Across Liquid Fuels
,” Combustion Sci. and Tech.
, Vol. 1
, pp. 293
–306
.7.
Quintiere, J. G., 1988, “Surface Flame Spread,” SFPE Handbook of Fire Protection Engineering, 1st Ed., National Fire Protection Assoc., Quincy, MA, pp. 360–367.
8.
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
.9.
Schiller, D. N., Ross, H. D., and Sirignano, W. A., 1993, “Computational Predictions of Flame Spread over Alcohol Pools,” Presented at 31st Aerospace Sciences Mtg. & Exhibit, Jan. 11-14, Reno, NV, Paper No. AIAA-93-0825.
10.
Williams, F. A., 1985, Combustion Theory, 2nd Ed., Benjamin/Cummings, Menlo Park, CA, Chapter 12.
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