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Combustion Science and Technology Volume 47, 1986 - Issue 3-4
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Original Articles

Ignition of Premixed Methanol/Air in a Heated Flow Tube and the Effect of NO2 Addition

S. KODA Department of Reaction Chemistry, Faculty of Engineering, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo, 113, Japan
&
M. TANAKA Department of Reaction Chemistry, Faculty of Engineering, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo, 113, Japan
Pages 165-176 | Received 05 Jun 1985, Accepted 22 Aug 1985, Published online: 27 Apr 2007

Citations (17)

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Krishna Prasad Shrestha, Lars Seidel, Thomas Zeuch & Fabian Mauss. (2019) Kinetic Modeling of NO Formation and Consumption during Methanol and Ethanol Oxidation. Combustion Science and Technology 191:9, pages 1627-1659.
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P. GLARBORG, D. KUBEL, P. G. KRISTENSEN, J. HANSEN & K. DAM-JOHANSEN. (1995) Interactions of CO, NOx and H2O Under Post-Flame Conditions. Combustion Science and Technology 110-111:1, pages 461-485.
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THOMASS. NORTON & FREDERICKL. DRYER. (1989) Some New Observations on Methanol Oxidation Chemistry. Combustion Science and Technology 63:1-3, pages 107-129.
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Articles from other publishers (14)

Weide Chang, Can Wang, Yangyi Wu, Chao Jin, Zhao Zhang & Haifeng Liu. (2023) Study on the mechanism of influence of cetane improver on methanol ignition. Fuel 354, pages 129383.
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Xiaoyuan Zhang, Kiran K. Yalamanchi & S. Mani Sarathy. (2023) Combustion chemistry of ammonia/C1 fuels: A comprehensive kinetic modeling study. Fuel 341, pages 127676.
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Xiaoqing Wu, Mengqi Wu, Qifeng Hou & Feng Zhang. (2023) Theoretical investigation on the reaction kinetics of NO2 with CH3OH and HCHO under combustion conditions. Proceedings of the Combustion Institute 39:1, pages 581-590.
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Yulei Guan, Ru Liu, Junpeng Lou, Haixia Ma & Jirong Song. (2019) Computational investigation on the reaction of dimethyl ether with nitric dioxide. I. Underlying mechanism and accurate energetics. Theoretical Chemistry Accounts 138:10.
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Christian Lund Rasmussen, Karin Hedebo Wassard, Kim Dam-Johansen & Peter Glarborg. (2008) Methanol oxidation in a flow reactor: Implications for the branching ratio of the CH3OH+OH reaction. International Journal of Chemical Kinetics 40:7, pages 423-441.
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Guillaume Dayma, Kamal Hadj Ali & Philippe Dagaut. (2007) Experimental and detailed kinetic modeling study of the high pressure oxidation of methanol sensitized by nitric oxide and nitrogen dioxide. Proceedings of the Combustion Institute 31:1, pages 411-418.
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Chao-Xian Xiao, Ning Yan, Ming Zou, Si-Cong Hou, Yuan Kou, Wenjian Liu & Shaowen Zhang. (2006) NO2-catalyzed deep oxidation of methanol: Experimental and theoretical studies. Journal of Molecular Catalysis A: Chemical 252:1-2, pages 202-211.
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Evgeny Denisov & Igor Afanas’ev. 2005. Oxidation and Antioxidants in Organic Chemistry and Biology. Oxidation and Antioxidants in Organic Chemistry and Biology 1 454 .
David A. Blank, Andrew A. Pouring & Jiang Lu. NOx Reduction Kinetics Mechanisms and Radical-Induced Autoignition Potential of EGR in I.C. Engines Using Methanol and Hydrogen. NOx Reduction Kinetics Mechanisms and Radical-Induced Autoignition Potential of EGR in I.C. Engines Using Methanol and Hydrogen.
Yi-Xue Zhang & S. H. Bauer. (1997) Modeling the Decomposition of Nitromethane, Induced by Shock Heating. The Journal of Physical Chemistry B 101:43, pages 8717-8726.
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Seiichiro Koda. 1993. Turbulence and Molecular Processes in Combustion. Turbulence and Molecular Processes in Combustion 187 197 .
V.M. Zamansky & A.A. Borisov. (1992) Promotion of high-temperature self-ignition. Progress in Energy and Combustion Science 18:4, pages 297-325.
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T. Tachibana, K. Hirata, H. Nishida & H. Osada. (1991) Effect of ozone on combustion of compression ignition engines. Combustion and Flame 85:3-4, pages 515-519.
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T. Nomaguchi & S. Koda. (1989) Spark ignition of methane and methanol in ozonized air. Symposium (International) on Combustion 22:1, pages 1677-1682.
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