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Combustion Science and Technology Volume 31, 1983 - Issue 1-2
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Original Articles

Catalytic Combustion of Propane/Air Mixtures on Platinum

C. BRUNO Department of Mechanical and Aerospace Engineering, Princeton University, Princeton, NJ 08544
,
P M. WALSH Department of Mechanical and Aerospace Engineering, Princeton University, Princeton, NJ 08544
,
D. A. SANTAVICCA Department of Mechanical and Aerospace Engineering, Princeton University, Princeton, NJ 08544
,
N. SINHA Department of Mechanical and Aerospace Engineering, Princeton University, Princeton, NJ 08544
,
Y. YAW Department of Mechanical and Aerospace Engineering, Princeton University, Princeton, NJ 08544
&
F. V. BRACCO Department of Mechanical and Aerospace Engineering, Princeton University, Princeton, NJ 08544
Pages 43-74 | Received 26 Oct 1981, Published online: 30 Mar 2007

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R. L JONES. (1997) Catalytic Combustion Effects in Internal Combustion Engines. Combustion Science and Technology 129:1-6, pages 185-195.
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Andrzej Cybulski & JacobA. Moulijn. (1994) Monoliths in Heterogeneous Catalysis. Catalysis Reviews 36:2, pages 179-270.
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PENELOPE MARKATOU, LISAD. PFEFFERLE & MITCHELLD. SMOOKE. (1991) The Influence of Surface Chemistry on the Development of Minor Species Profiles in the Premixed Boundary Layer Combustion of an H2/Air Mixture. Combustion Science and Technology 79:4-6, pages 247-268.
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L.D. Pfefferle & W.C. Pfefferle. (1987) Catalysis in Combustion. Catalysis Reviews 29:2-3, pages 219-267.
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D. R. J. Baxter, K. N. C. Bray, R. A. East & N. H. Pratt. (1984) Catalytic Combustion at High Pressure Using an Intermittent Facility. Combustion Science and Technology 37:5-6, pages 305-311.
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Articles from other publishers (35)

Junjie Chen & Zhiwei Pang. (2021) Catalytically stabilized combustion characteristics of methane-air mixtures in micro-scale heat-recirculating systems. Fuel 306, pages 121693.
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Symeon KaragiannidisSymeon Karagiannidis. 2011. Catalytic Microreactors for Portable Power Generation. Catalytic Microreactors for Portable Power Generation 1 14 .
Li-Ping Ma, Hans-Jörg Bart, Ping Ning, Aimin Zhang, Guozheng Wu & Zhu Zengzang. (2009) Kinetic study of three-way catalyst of automotive exhaust gas: Modeling and application. Chemical Engineering Journal 155:1-2, pages 241-247.
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Symeon Karagiannidis, John Mantzaras, Rolf Bombach, Sabine Schenker & Konstantinos Boulouchos. (2009) Experimental and numerical investigation of the hetero-/homogeneous combustion of lean propane/air mixtures over platinum. Proceedings of the Combustion Institute 32:2, pages 1947-1955.
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V.R. Choudhary & G.M. Deshmukh. (2005) Kinetics of the complete combustion of dilute propane and methyl ethyl ketone over Cr-doped catalyst . Chemical Engineering Science 60:6, pages 1575-1581.
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V. R. Choudhary, G. M. Deshmukh & D. P. Mishra. (2004) Kinetics of the Complete Combustion of Dilute Propane and Toluene over Iron-Doped ZrO 2 Catalyst . Energy & Fuels 19:1, pages 54-63.
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J.E. Atwater, J.R. Akse, T.-C. Wang, S. Kimura & D.C. Johnson. (2001) Preparation of silicon-carbide-coated activated carbon using a high-temperature fluidized bed reactor. Chemical Engineering Science 56:8, pages 2685-2693.
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Goro Onuma, Mitsuaki Tanabe & Kiyoshi Aoki. (2001) On the controlling factor of catalyst temperature in C3H8-air mixture. Journal of Thermal Science 10:1, pages 87-91.
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M. van Sint Annaland, J.A.M. Kuipers & W.P.M. van Swaaij. (2001) Safety analysis of switching between reductive and oxidative conditions in a reaction coupling reverse flow reactor. Chemical Engineering Science 56:4, pages 1517-1524.
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Yong Seog Seo, Sung June Cho, Sung Kyu Kang & Hyun Dong Shin. (2000) Numerical studies of catalytic combustion in a catalytically stabilized combustor. International Journal of Energy Research 24:12, pages 1049-1064.
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A.L Boehman & R.W Dibble. (2000) Experimental and numerical investigation on the influence of temporal fuel/air unmixedness on NOx emissions of lean premixed catalytically stabilized and non-catalytic combustion. Catalysis Today 59:1-2, pages 131-140.
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John Mantzaras, Christoph Appel, Peter Benz & Urs Dogwiler. (2000) Numerical modelling of turbulent catalytically stabilized channel flow combustion. Catalysis Today 59:1-2, pages 3-17.
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John Mantzaras, Christoph Appel & Peter Benz. (2000) Catalytic combustion of methane/air mixtures over platinum: Homogeneous ignition distances in channel flow configurations. Proceedings of the Combustion Institute 28:1, pages 1349-1357.
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John Mantzaras & Peter Benz. (1999) An asymptotic and numerical investigation of homogeneous ignition in catalytically stabilized channel flow combustion. Combustion and Flame 119:4, pages 455-472.
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Urs Dogwiler, Peter Benz & John Mantzaras. (1999) Two-dimensional modelling for catalytically stabilized combustion of a lean methane-air mixture with elementary homogeneous and heterogeneous chemical reactions. Combustion and Flame 116:1-2, pages 243-258.
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André L. Boehman. (2004) Radiation heat transfer in catalytic monoliths. AIChE Journal 44:12, pages 2745-2755.
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Urs Dogwiler, John Mantzaras, Peter Benz, Beat Kaeppeli, Rolf Bombach & Andreas Arnold. (1998) Homogeneous ignition of methane-air mixtures over platinum: Comparison of measurements and detailed numerical predictions. Symposium (International) on Combustion 27:2, pages 2275-2282.
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A. L. Boehman, J. W. Simons, S. J. Niksa & J. G. McCarty. (1997) Dynamic Stress Behavior in Catalytic Combustors. Journal of Energy Resources Technology 119:3, pages 164-170.
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Robert L. Jones. (1996) Catalytic combustion effects of m-ZrO2 doped with various metal nitrates. Surface and Coatings Technology 86-87, pages 127-134.
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Gianpiero Groppi, Enrico Tronconi & Pio Forzatti. (1996) Investigations on catalytic combustors for gas turbine applications through mathematical model analysis. Applied Catalysis A: General 138:2, pages 177-197.
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G. Groppi, A. Belloli, E. Tronconi & P. Forzatti. (2004) Analysis of multidimensional models of monolith catalysts for hybrid combustors. AIChE Journal 41:10, pages 2250-2260.
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G. Groppi, A. Belloli, E. Tronconi & P. Forzatti. (1995) A comparison of lumped and distributed models of monolith catalytic combustors. Chemical Engineering Science 50:17, pages 2705-2715.
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Yu. N. Shebeko, A. V. Trunev, V. A. Shepelin, V. Yu. Navtsevya & A. A. Zaitsev. (1995) Flameless combustion of hydrogen on the surface of a hydrophobized catalyst. Combustion, Explosion, and Shock Waves 31:5, pages 537-542.
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A. Nakhjavan, P. Björnbom, M.F.M. Zwinkels & S.G. Järås. (1995) Numerical analysis of the transient performance of high-temperature monolith catalytic combustors: Effect of catalyst porosity. Chemical Engineering Science 50:14, pages 2255-2262.
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Joo H. Lee & David L. Trimm. (1995) Catalytic combustion of methane. Fuel Processing Technology 42:2-3, pages 339-359.
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M. KavianyM. Kaviany. 1995. Principles of Heat Transfer in Porous Media. Principles of Heat Transfer in Porous Media 365 390 .
A. Schlegel, S. Buser, P. Benz, H. Bockhorn & F. Mauss. (1994) NO formation in lean premixed noncatalytic andcatalytically stabilized combustion of propane. Symposium (International) on Combustion 25:1, pages 1019-1026.
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R.E. Hayes & S.T. Kolaczkowski. (1994) Mass and heat transfer effects in catalytic monolith reactors. Chemical Engineering Science 49:21, pages 3587-3599.
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Penelope Markatou, Lisa D. Pfefferle & Mitchell D. Smooke. (1993) A computational study of methane-air combustion over heated catalytic and non-catalytic surfaces. Combustion and Flame 93:1-2, pages 185-201.
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. (1997) An experimental and theoretical study of a catalytic monolith to control automobile exhaust emissions. Proceedings of the Royal Society of London. Series A: Mathematical and Physical Sciences 439:1907, pages 465-483.
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N. S. Will & C. J. Bennett. Flow Maldistributions in Automotive Converter Canisters and their Effect on Emission Control. Flow Maldistributions in Automotive Converter Canisters and their Effect on Emission Control.
J. Paul Day & Louis S. Socha. Technique for the Analysis of FTP Emissions. Technique for the Analysis of FTP Emissions.
M. KavianyM. Kaviany. 1991. Principles of Heat Transfer in Porous Media. Principles of Heat Transfer in Porous Media 333 355 .
W.C. Pfefferle & L.D. Pfefferle. (1986) Catalytically stabilized combustion. Progress in Energy and Combustion Science 12:1, pages 25-41.
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