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Combustion Science and Technology Volume 89, 1993 - Issue 5-6
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Original Articles

Some Specific Aspects of Combustion in Supersonic H2-Air Laminar Mixing Layers

LUIS FERNANDO FIGUEIRA DA SILVA Laboratoire d'Enerqetioue et de Detonique URA 193 au CNRS-ENSMA rue Guillaume VII, 86034, Poitiers, FRANCE Phone: 3349605051 Fax: 3349605051
,
BRUNO DESHAIES Laboratoire d'Enerqetioue et de Detonique URA 193 au CNRS-ENSMA rue Guillaume VII, 86034, Poitiers, FRANCE Phone: 3349605051 Fax: 3349605051
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MICHEL CHAMPION Laboratoire d'Enerqetioue et de Detonique URA 193 au CNRS-ENSMA rue Guillaume VII, 86034, Poitiers, FRANCE Phone: 3349605051 Fax: 3349605051
&
MICHEL RENE-CORAIL Laboratoire d'Enerqetioue et de Detonique URA 193 au CNRS-ENSMA rue Guillaume VII, 86034, Poitiers, FRANCE Phone: 3349605051 Fax: 3349605051
Pages 317-333 | Received 26 Mar 1992, Accepted 27 Aug 1992, Published online: 17 Apr 2007

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Read on this site (4)

Laurent Gomet, Vincent Robin & Arnaud Mura. (2012) Influence of Residence and Scalar Mixing Time Scales in Non-Premixed Combustion in Supersonic Turbulent Flows. Combustion Science and Technology 184:10-11, pages 1471-1501.
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Jean-François Izard, Guillaume Lehnasch & Arnaud Mura. (2009) A Lagrangian Model of Combustion in High-Speed Flows: Application to Scramjet Conditions. Combustion Science and Technology 181:11, pages 1372-1396.
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B. HAN, C.J. SUNG*M. NISHIOKA. (2004) EFFECTS OF VITIATED AIR ON HYDROGEN IGNITION IN A HIGH-SPEED LAMINAR MIXING LAYER. Combustion Science and Technology 176:3, pages 305-330.
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Antonio L. Sánchez, Amable Liñán & Forman A. Williams. (1997) A Generalized Burke-Schumann Formulation for Hydrogen-Oxygen Diffusion Flames Maintaining Partial Equilibrium of the Shuffle Reactions. Combustion Science and Technology 123:1-6, pages 317-345.
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Articles from other publishers (21)

Longfei Li & Jiangfeng Wang. (2021) Modeling of a Reduced Hybrid H2–Air Kinetic Scheme Integrating the Effect of Hypersonic Reactive Air with Supersonic Combustion. Energies 14:22, pages 7728.
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Lisa Bouheraoua, Pascale Domingo & Guillaume Ribert. (2017) Large-eddy simulation of a supersonic lifted jet flame: Analysis of the turbulent flame base. Combustion and Flame 179, pages 199-218.
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Obula Reddy Kummitha. (2017) Numerical analysis of passive techniques for optimizing the performance of scramjet combustor. International Journal of Hydrogen Energy 42:15, pages 10455-10465.
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Chen Qian, Wang Bing, Zhang Huiqiang, Zhang Yunlong & Gao Wei. (2016) Numerical investigation of H 2 /air combustion instability driven by large scale vortex in supersonic mixing layers. International Journal of Hydrogen Energy 41:4, pages 3171-3184.
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YunLong Zhang, Bing Wang & HuiQiang Zhang. (2014) Ignition, flame propagation and extinction in the supersonic mixing layer flow. Science China Technological Sciences 57:11, pages 2256-2264.
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Antonio L. Sánchez & Forman A. Williams. (2014) Recent advances in understanding of flammability characteristics of hydrogen. Progress in Energy and Combustion Science 41, pages 1-55.
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A.M. Tahsini. (2013) Ignition delay time in swirling supersonic flow. Acta Astronautica 83, pages 91-96.
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Amir M Tahsini. (2012) Turbulence and additive effects on ignition delay in supersonic combustion. Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering 227:1, pages 93-99.
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J.H. Tien & R.J. Stalker. (2002) Release of chemical energy by combustion in a supersonic mixing layer of hydrogen and air. Combustion and Flame 131:3, pages 329-348.
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B. Han, C. Sung & M. Nishioka. (2002) Effects of vitiated air on hydrogen ignition in a supersonic laminar mixing layer. Effects of vitiated air on hydrogen ignition in a supersonic laminar mixing layer.
Adriana Faria, Milton Biage & Paulo Junior. (2000) Collocation spectral elements method for simulation of reactive mixing layer. Collocation spectral elements method for simulation of reactive mixing layer.
A. Graf & U. Riedel. (2000) Numerical simulation of supersonic reactive flows using explicit Runge-Kutta methods. Numerical simulation of supersonic reactive flows using explicit Runge-Kutta methods.
M. Nishioka & C.K. Law. (1997) A numerical study of ignition in the supersonic hydrogen/air laminar mixing layer. Combustion and Flame 108:1-2, pages 199-219.
Crossref
L. L. Zheng & K. N. C. Bray. 1997. IUTAM Symposium on Combustion in Supersonic Flows. IUTAM Symposium on Combustion in Supersonic Flows 111 117 .
U. Riedel & D. Thévenin. 1997. IUTAM Symposium on Combustion in Supersonic Flows. IUTAM Symposium on Combustion in Supersonic Flows 43 50 .
B. Deshaies, L. F. Figueira Da Silva & M. René-Corail. 1997. IUTAM Symposium on Combustion in Supersonic Flows. IUTAM Symposium on Combustion in Supersonic Flows 15 42 .
A. Stoukov, M. Gorokhovski & D. Vandromme. 1997. IUTAM Symposium on Combustion in Supersonic Flows. IUTAM Symposium on Combustion in Supersonic Flows 119 134 .
M Nishioka & C Law. (1995) A numerical study of ignition in the supersonic hydrogen/air laminar mixing layer. A numerical study of ignition in the supersonic hydrogen/air laminar mixing layer.
T. Niioka, Y. Ju, T. Fujimori & K. Takita. 1995. Modeling in Combustion Science. Modeling in Combustion Science 337 351 .
L. F. Figueira da Silva, B. Deshaies & M. Champion. (1994) Boundary layer ignition of hydrogen-air mixtures in supersonic flows. Journal of Thermal Science 3:1, pages 43-48.
Crossref
Luís Fernando Figueira da Silva & Bruno Deshaies. (1994) The influence of equivalence ratio and Sorêt effecton the ignition of hydrogen-air mixtures in supersonic boundary layers. Symposium (International) on Combustion 25:1, pages 29-36.
Crossref

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