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Combustion Science and Technology Volume 30, 1983 - Issue 1-6
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Original Articles

A Model for the Transient Behavior of Catalytic Combustors

RAVI PRASAD Faculty of Engineering and Applied Sciences, State University of New York at Buffalo, Amherst, New York, 14620
,
LAWRENCE A. KENNEDY Faculty of Engineering and Applied Sciences, State University of New York at Buffalo, Amherst, New York, 14620
&
ELI RUCKENSTEIN Faculty of Engineering and Applied Sciences, State University of New York at Buffalo, Amherst, New York, 14620
Pages 59-88 | Received 12 Apr 1982, Published online: 27 Apr 2007

Citations (16)

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Andrzej Cybulski & JacobA. Moulijn. (1994) Monoliths in Heterogeneous Catalysis. Catalysis Reviews 36:2, pages 179-270.
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Ahmad Fakheri & O. Buckius Richard. (1987) Transient Analysis of Heterogeneous and Homogeneous Combustion in Boundary Layer Flow. Combustion Science and Technology 53:4-6, pages 259-275.
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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 (12)

Jinwen Chen, Hong Yang, Neil Wang, Zbigniew Ring & Tadeusz Dabros. (2008) Mathematical modeling of monolith catalysts and reactors for gas phase reactions. Applied Catalysis A: General 345:1, pages 1-11.
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A. Varesano, I. Guaglio, G. Saracco & P. L. Maffettone. (2005) Dynamics of a Methanol Reformer for Automotive Applications. Industrial & Engineering Chemistry Research 44:4, pages 759-768.
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Wei-Biao Fu, Ling-Yun Hou, Bei-Jing Zhong, Fan-Hua Ma, Chuan Qin & Chang-Le Li. (2003) An analysis of the ignition of premixed gases by a hot spherical surface with catalytic reforming reaction☆. Fuel 82:5, pages 539-544.
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Soo Hyun Jang, Wha Seung Ahn, Jae Mok Ha & Kwang Ja Park. (1999) Mathematical model of a monolith catalytic incinerator. Korean Journal of Chemical Engineering 16:6, pages 778-783.
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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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Robert E. Hayes, Stan T. Kolaczkowski, W. John Thomas & James Titiloye. (1996) Transient Experiments and Modeling of the Catalytic Combustion of Methane in a Monolith Reactor. Industrial & Engineering Chemistry Research 35:2, pages 406-414.
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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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Yih-Ming Kang & Ben-Zu Wan. (1994) Effects of acid or base additives on the catalytic combustion activity of chromium and cobalt oxides. Applied Catalysis A: General 114:1, pages 35-49.
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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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Antonello A. Barresi, Italo Mazzarino, Marco Vanni & Giancarlo Baldi. (1993) Catalytic afterburners with not fully developed flow: modelling and experimental performances. The Chemical Engineering Journal 52:2, pages 79-88.
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Ta-Ching Tien & James S. T’ien. 1992. Aerothermodynamics in Combustors. Aerothermodynamics in Combustors 231 244 .
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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