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Combustion Properties of Hydrogen/Air Mixture with and without dilution
Technical Paper
2011-01-1999
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
Combustion properties of hydrogen with N₂ dilution were investigated. The laminar and turbulent burning velocities were examined for outwardly propagating stoichiometric H₂/O₂/N₂ flames varying the amount of diluent N₂. The unstretched laminar burning velocity, ul decreased with the increase in the amount of N₂. Markstein number, Ma, the sensitivity of the flame to the stretch due to the thermo-diffusive effects decreased with the increase in the amount of N₂.
Authors
Citation
Nagano, Y., Takeo, T., Tomari, K., Hayakawa, A. et al., "Combustion Properties of Hydrogen/Air Mixture with and without dilution," SAE Technical Paper 2011-01-1999, 2011, https://doi.org/10.4271/2011-01-1999.Also In
References
- Karim, GA. Hydrogen as a spark ignition engine fuel International Journal of Hydrogen Energy 28 2003 569 577
- Verhelst, S. Wallner, T. Hydrogen-fueled internal combustion engines Progress in Energy and Combustion Science 35 2009 490 527
- Safari, H. Jazayeri, SA. Ebrahimi, R. International Journal of Hydrogen Energy 34 2009 1015 1025
- Bradley, D. Hicks, RA. Lawes, M. Sheppard, CGW. Woolley, R. The measurement of laminar burning velocities and Markstein numbers for iso-octane-air and iso-octane-n-heptane-air mixtures at elevated temperatures and pressures in an explosion bomb Combustion and Flame 115 1998 126 144
- Gu, XJ. Haq, MZ. Lawes, M. Woolley, R. laminar burning velocity and Markstein lengths of methane-air mixtures Combustion and Flame 121 2000 41 58
- Hassan, MI. Aung, KT. Faeth, GM. Measured and predicted properties of laminar premixed methane/air flames at various pressures Combustion and Flame 115 1998 539 550
- Markstein, GH. Experimental and theoretical studies of flame-front stability Journal of the Aeronautical Science 1951 199 216
- Kwon, OC. Faeth, GM. Flame/stretch interactions of premixed hydrogen-fueled flames: measurements and predictions Combustion and Flame 124 2001 590 610
- Mandilas, C. Ormsby, MP. Sheppard, CGW. Woolley, R. Effects of hydrogen addition on laminar and turbulent premixed methane and iso-octane-air flames Proceeding of the Combustion Institute 31 2007 1443 1450
- Muller, UC. Bollig, M. Peters, N. Approximations for burning velocities and Markstein numbers for lean hydrocarbon and methanol flames Combustion and Flame 108 1997 349 356
- Sun, CJ. Sung, CJ. He, L. Law, CK. Dynamics of weakly stretched flames: quantitative description and extraction of global flame parameters Combustion and Flame 118 1999 108 128
- Bradley, D. Sheppard, CGW. Woolley, R. Greenhalgh, DA. Lockett, RD. The development and structure of flame instabilities and cellularity at low Markstein numbers in explosions Combustion and Flame 122 2000 195 209
- Tse, SD. Zhu, DL. Law, CK. Morphology and burning rates of expanding spherical flames in H2/O2/inert mixtures up to 60 atmospheres Proceedings of the Combustion Institute 28 2000 1793 1800
- Qin, X. Kobayashi, H. Niioka, T. Laminar burning velocity of hydrogen-air premixed flames at elevated pressure Experimental Thermal and Fluid Science 21 2000 58 63
- Kobayashi, H. Kawabata, Y. Maruta, K. Experimental study on general correlation of turbulent burning velocity at high pressure Proceedings of the Combustion Institute 27 1998 941 948
- Kobayashi, H. Kawahata, T. Seyama, K. Fujimari, T. Kim, JS. Relationship between the smallest scale of flame wrinkles and turbulence characteristics of high-pressure, high-temperature turbulent premixed flames Proceeding of the Combustion Institute 29 2002 1793 1800
- Bradley, D. Haq, MZ. Hicks, RA. Kitagawa, T. Lawes, M. Sheppard, CGW. et al Turbulent burning velocity, burned gas distribution, and associated flame surface definition Combustion and Flame 133 2003 415 430
- Lawes, M. Ormsby, MP. Sheppard, CGW. Woolley, R. The variation of turbulent burning rate of methane, methanol and iso-octane air mixtures with equivalence ratio at elevated pressure Combustion Science and Technology 7 2005
- Lipatnikov, AN. Chomiak, J. Molecular transport effects on turbulent flame propagation and structure Progress in Energy and Combustion Science 31 2005 1 73
- Verhelst, S. Woolley, R. Lawes, M. Sierens, R. Laminar and unstable burning velocities and Markstein lengths of hydrogen-air mixtures at engine-like conditions Proceedings of the Combustion Institute 30 2005 209 216
- COSILAB2, The Combustion Simulation Laboratory, Version3.0.3 www.SoftPredict.com Rotexo GmbH&Co.KG Bad Zwischenahn(Germany) 2006
- Wang, H. You, X. Joshi, AV. Davis, SG. Laskin, A. Egolfopoulos, F. Law, CK. http://ignis.usc.edu/Mechanisms/USC-Mech%20II/USC_Mech%20II.htm
- Kitagawa, T. Nakahara, T. Maruyama, K. Kado, K. Hayakawa, A. Kobayashi, S. Turbulent burning velocity of hydrogen-air premixed propagating flames at elevated pressures International Journal of Hydrogen Energy 33 2008 5842 5849
- Law, CK. Dynamics of stretched flames Proceedings of the Combustion Institute 22 1988 1381 1402
- Williams, FA. Combustion theory: the fundamental theory of chemically reacting flow systems 2nd 1985 Benjamin/Cummings Publishing Company, Inc.
- Matalon, M. On flame stretch Combustion Science 21
- Clavin, P. Dynamic behavior of premixed flame fronts in laminar and turbulent flows Progress in Energy and Combustion Science 11 1985 1 59
- Tien, JH. Matalon, M. On the burning velocity of stretched flame Combustion Science and Technology 84 1991 238 248
- Davis, SG. Quinard, J. Searby, G. Markstein numbers in counterflow, methane-and propane-air flames: a computational study Combustion and Flame 130 2002 112 122
- Betchtold, JK. Matalon, M. The dependence of the Markstein length on stoichiometry Combustion and Flame 127 2001 1906 1913
- Bradley, D. Lau, AKC. Lawes, M. Flame stretch rate as a determinant of turbulent burning velocity Philosophical Transactions of the Royal Society A 338 1992 359 387
- Scott, MJ. Distributions of strain rate and temperature in turbulent combustion PhD dissertation Department of Mechanical Engineering, University of Leeds 1992
- Renou, B. Boukhalfa, A. Puechbberty, D. Trinite, M. Local scalar flame properties of freely propagating premixed turbulent flames at various Lewis numbers Combustion and Flame 123 2000 507 521