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Combustion Science and Technology Volume 15, 1977 - Issue 1-2
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Original Articles

Some Studies on Hydrogen—Oxygen Diffusion Flame

A. G. MARATHE Department of Aeronautical Engineering. Indian Institute of Science, Bangalore 560012, India
&
H. S. MUKUNDA Department of Aeronautical Engineering. Indian Institute of Science, Bangalore 560012, India
Pages 49-64 | Received 16 Jul 1976, Published online: 09 Jun 2010

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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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BYUNG MOO LEE & HYUN DONG SHIN. (1988) Differential Diffusion Effects in H2/N2 Turbulent Nonpremixed Flames. Combustion Science and Technology 62:4-6, pages 311-330.
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J. B. Greenberg, D. Alibagli & Y. Tambour. (1986) An Opposed Jet Quasi-Monodisperse Spray Diffusion Flame. Combustion Science and Technology 50:4-6, pages 255-270.
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B. GREENBERG. (1980) n the Prediction of Thermal Diffusion Effects in Laminar ne-Dimensional Flames. Combustion Science and Technology 24:1-2, pages 83-88.
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A. G. MA RATHE, V. PRABHAKAR & V. K. JAIN. (1980) Studies on Hydrogen—Bromine Reaction Scheme. Combustion Science and Technology 21:3-4, pages 181-182.
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Articles from other publishers (12)

A. Ingenito, D. Cecere & E. Giacomazzi. (2013) Large Eddy simulation of turbulent hydrogen-fuelled supersonic combustion in an air cross-flow. Shock Waves 23:5, pages 481-494.
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Paolo Gobbato, Massimo Masi, Andrea Toffolo & Andrea Lazzaretto. (2011) Numerical simulation of a hydrogen fuelled gas turbine combustor. International Journal of Hydrogen Energy 36:13, pages 7993-8002.
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Massimo Masi, Paolo Gobbato, Andrea Toffolo, Andrea Lazzaretto & Stefano Cocchi. (2011) Numerical and Experimental Analysis of the Temperature Distribution in a Hydrogen Fuelled Combustor for a 10 MW Gas Turbine. Journal of Engineering for Gas Turbines and Power 133:2.
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Andreas FiolitakisP Gerlinger, B NollM AignerW Krebs & B Wegner. (2010) A Novel Progress Variable Approach for Predicting NO in Laminar Hydrogen Flames. A Novel Progress Variable Approach for Predicting NO in Laminar Hydrogen Flames.
K. Hwang & S. Tiwari. (2000) Two dimensional simulation of hydrogen air opposed jet diffusion flame. Two dimensional simulation of hydrogen air opposed jet diffusion flame.
John Baker & Kozo Saito. (1999) Magnetic fields and equilibrium combustion characteristics. Magnetic fields and equilibrium combustion characteristics.
K. Hwang & S. Tiwari. (1999) Numerical study of tube wall thickness effects in 10 percent H2-air opposed jet flows. Numerical study of tube wall thickness effects in 10 percent H2-air opposed jet flows.
V. I. Babushok & A. N. Dakdancha. (1993) Global kinetic parameters for high-temperature gas-phase reactions. Combustion, Explosion, and Shock Waves 29:4, pages 464-489.
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D. Stepowski. (1992) Laser measurements of scalars in turbulent diffusion flames. Progress in Energy and Combustion Science 18:6, pages 463-491.
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D. Stepowski, K. Labbaci & R. Borghi. 1989. Turbulent Reactive Flows. Turbulent Reactive Flows 64 80 .
D. Stepowski, K. Labbaci & R. Borghi. (1988) Instantaneous radial profiles of oh fluorescence and rayleigh scattering through a turbulent H2-air diffusion flame. Symposium (International) on Combustion 21:1, pages 1561-1568.
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D.P. Aeschliman, J.C. Cummings & R.A. Hill. (1979) Raman spectroscopic study of a laminar hydrogen diffusion flame in air. Journal of Quantitative Spectroscopy and Radiative Transfer 21:4, pages 293-307.
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