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Combustion Science and Technology Volume 2, 1970 - Issue 4
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Original Articles

Some New Observations on the Combustion of Hydrocarbon Droplets at Elevated Pressures

R. NATARAJAN Thermal Engineering Group, Department of Mechanical Engineering, University of Waterloo, Waterloo, Ontario, Canada
&
T. A. BRZUSTOWSKI Thermal Engineering Group, Department of Mechanical Engineering, University of Waterloo, Waterloo, Ontario, Canada
Pages 259-269 | Received 17 Jul 1970, Published online: 10 May 2007

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D. K. SHARMA, S. STEPHEN & R. NATARAJAN. (1998) Structure of Burning n-hexane Droplet by Moiré Deflectometry. Combustion Science and Technology 131:1-6, pages 305-321.
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R. RUSZALO & W. L. H. HALLETT. (1992) A Model for the Autoignition of Single Liquid Droplets at High Pressure. Combustion Science and Technology 86:1-6, pages 183-197.
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D. W. MACKOWSKI, R. A. ALTENKIRCH & M. P. MENGÜÇ. (1987) SHORT COMMUNICATION. Combustion Science and Technology 53:4-6, pages 399-410.
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S.R. Bell & J. A. Caton. (1986) Cycle Simulations of a Coal-Fueled, Reciprocating, Internal- Combustion Engine: the Role of Volatiles and Liquid Carriers. Combustion Science and Technology 50:4-6, pages 185-203.
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T.A. Bfzustowski. (1983) The Effect of Fluctuations in Temperature and Oxygen Concentration on the Lifetime of a Fuel Droplet. Combustion Science and Technology 35:1-4, pages 59-79.
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A. C. FERNANDEZ-PELLO. (1982) An Analysis of the Forced Convective Burning of a Combustible Particle. Combustion Science and Technology 28:5-6, pages 305-313.
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E. M. TWARDUS & T. A. BRZUSTOWSKI. (1978) An Experimental Study of Flame Spread and Burning in Arrays of Monosize Hydrocarbon Droplets. Combustion Science and Technology 17:5-6, pages 215-225.
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Articles from other publishers (37)

Zhihao Ma, Yanan Li, Zhibo Li, Weixin Du, Zhenlong Yin & Shengli Xu. (2018) Evaporation and combustion characteristics of hydrocarbon fuel droplet in sub- and super-critical environments. Fuel 220, pages 763-768.
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Daisuke Segawa, Tomoki Kajikawa & Toshikazu Kadoka. (2005) Transcritical phenomena of autoignited fuel droplet at high pressures under microgravity. Microgravity - Science and Technology 17:3, pages 15-22.
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J. Bellan. (2000) Supercritical (and subcritical) fluid behavior and modeling: drops, streams, shear and mixing layers, jets and sprays. Progress in Energy and Combustion Science 26:4-6, pages 329-366.
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Daisuke Segawa, Toshikazu Kadota, Akira Nakainkyo, Shuichi Hirota & Hiroshi Enomoto. (2000) Effects of ambient pressure on autoignition of a fuel droplet in supercritical and microgravity environment. Proceedings of the Combustion Institute 28:1, pages 1063-1069.
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Toshikazu Kadota, Kimiyoshi Satoh, Daisuke Segawa, Jun'ichi Sato & Yoichi Marutani. (1998) Autoignition and combustion of a fuel droplet in supercritical gaseous environments under microgravity. Symposium (International) on Combustion 27:2, pages 2595-2601.
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S. S. Sadhal, P. S. Ayyaswamy & J. N. ChungS. S. Sadhal, P. S. Ayyaswamy & J. N. Chung. 1997. Transport Phenomena with Drops and Bubbles. Transport Phenomena with Drops and Bubbles 133 209 .
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K. Madooglu & A.R. Karagozian. (1994) A simplified approach to transient convective droplet evaporation and burning. Combustion and Flame 98:1-2, pages 170-174.
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Jun'ichi Sato, Mitsuhiro Tsue, Mario Niwa & Michikata Kono. (1990) Effects of natural convection on high-pressure droplet combustion. Combustion and Flame 82:2, pages 142-150.
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W.L. Flower & C.T. Bowman. (1985) Measurements of the structure of sooting laminar diffusion flames at elevated pressures. Symposium (International) on Combustion 20:1, pages 1035-1044.
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A.C. Fernandez-Pello. (1983) Theory of the mixed convective combustion of a spherical fuel particle. Combustion and Flame 53:1-3, pages 23-32.
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A.C. Fernandez-Pello & C.K. Law. (1982) On the mixed-convective flame structure in the stagnation point of a fuel particle. Symposium (International) on Combustion 19:1, pages 1037-1044.
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J. C. Dent & Pramod S. Mehta. Phenomenological Combustion Model for a Quiescent Chamber Diesel Engine. Phenomenological Combustion Model for a Quiescent Chamber Diesel Engine.
W.R. Seeker, G.S. Samuelsen, M.P. Heap & J.D. Trolinger. (1981) The thermal decomposition of pulverized coal particles. Symposium (International) on Combustion 18:1, pages 1213-1226.
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J. C. Dent. 1980. Combustion Modeling in Reciprocating Engines. Combustion Modeling in Reciprocating Engines 265 298 .
Ramamurthy Natarajan. (1979) Combustion of multi-component liquid fuel drops. Fuel 58:11, pages 815-818.
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G.M. FAETH. 1979. Energy and Combustion Science. Energy and Combustion Science 149 182 .
ALAN WILLIAMS. 1979. Energy and Combustion Science. Energy and Combustion Science 135 147 .
J. C. Dent, J. H. Keightley & C. D. De Boer. The Application of Interferometry to Air Fuel Ratio Measurement in Quiescent Chamber Diesel Engines. The Application of Interferometry to Air Fuel Ratio Measurement in Quiescent Chamber Diesel Engines.
G.M. Faeth. (1977) Current status of droplet and liquid combustion. Progress in Energy and Combustion Science 3:4, pages 191-224.
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A.K. Ghosh & R. Natarajan. (1977) Velocity histories of vaporizing fuel drops injected downward-effect of index n in the “Dn-law”. Combustion and Flame 29, pages 283-287.
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C. J. Morris & J. C. Dent. (2006) The Simulation of Air Fuel Mixing in High Swirl Open Chamber Diesel Engines. Proceedings of the Institution of Mechanical Engineers 190:1, pages 503-513.
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R. Natarajan. (1976) A shadowgraphic investigation of high pressure droplet vaporization. Combustion and Flame 26, pages 407-410.
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Alan Williams. (1976) Fundamentals of oil combustion. Progress in Energy and Combustion Science 2:3, pages 167-179.
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Ramamurthy Natarajan & Amit K. Ghosh. (1975) Velocity histories of vaporizing fuel drops moving through stagnant gas. Fuel 54:3, pages 153-161.
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J. Odgers. (1975) Current theories of combustion within gas turbine chambers. Symposium (International) on Combustion 15:1, pages 1321-1338.
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Cye H. Waldman. (1975) Theory of non-steady state droplet combustion. Symposium (International) on Combustion 15:1, pages 429-442.
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R. Natarajan. (2009) Some experimental observations of rotation, oscillation, spinning and swerving of falling burning drops. The Canadian Journal of Chemical Engineering 52:6, pages 834-837.
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Subramanyam R. Gollahalli & T.A. Brzustowski. (1974) Flame length in the wake of a burning hydrocarbon drop. Combustion and Flame 22:3, pages 313-322.
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R. P. Wilson, E. B. Muir & F. A. Pellicciotti. Emissions Study of A Single-Cylinder Diesel Engine. Emissions Study of A Single-Cylinder Diesel Engine.
Alan Williams. (1973) Combustion of droplets of liquid fuels: A review. Combustion and Flame 21:1, pages 1-31.
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R. W. Tempk-Pediani. (2016) Effect of Pre-Injection Fuel Temperature upon Diesel Engine Ignition Delay and Soot Emission. Proceedings of the Institution of Mechanical Engineers 187:1, pages 395-404.
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R. W. Tempk-Pediani. (2016) Effect of Pre-Injection Fuel Temperature upon Diesel Engine Ignition Delay and Soot Emission. Proceedings of the Institution of Mechanical Engineers 187:1, pages 395-404.
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Subramanyam R. Gollahalli & T.A. Brzustowski. (1973) Experimental studies on the flame structure in the wake of a burning droplet. Symposium (International) on Combustion 14:1, pages 1333-1344.
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R Natarajan. (1972) Design and development of a high pressure facility for droplet combustion experiments. Journal of Physics E: Scientific Instruments 5:12, pages 1189-1192.
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