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Ignition Delay Correlation for Predicting Autoignition of a Toluene Reference Fuel Blend in Spark Ignition Engines
Journal Article
2011-01-0338
ISSN: 1946-3936, e-ISSN: 1946-3944
Sector:
Citation:
Iqbal, A., Selamet, A., Reese, R., and Vick, R., "Ignition Delay Correlation for Predicting Autoignition of a Toluene Reference Fuel Blend in Spark Ignition Engines," SAE Int. J. Engines 4(1):219-234, 2011, https://doi.org/10.4271/2011-01-0338.
Language:
English
References
- Livengood, J. C. Wu, P. C. “Correlation of Autoignition Phenomena in Internal Combustion Engines and Rapid Compression Machines,” Fifth Symp. (Intl.) Comb. 347 356 1955
- Rifkin, E. Walcutt, C. “A Basis for Understanding Antiknock Action,” SAE Transactions 65 552 565 1957
- Burwell, W. G. Olson, D. R. “The Spontaneous Ignition of Isooctane Air Mixtures under Steady Flow Conditions,” SAE Technical Paper 650510 1965 10.4271/650510
- Vermeer, D. J. Meyer, J. W. Oppenheim, A. K. “Auto-Ignition of Hydrocarbons Behind Reflected Shock Waves,” Comb. Flame 18 3 327 336 1972
- Douaud, A. M. Eyzat, P. “Four-Octane-Number-Method for Predicting the Anti-Knock Behavior of Fuels and Engines,” SAE Technical Paper 780080 1978 10.4271/780080
- Wayne, W. S. Clark, N. N. Atkinson, C. M. “A Parametric Study of Knock Control Strategies for a Bi-Fuel Engine,” SAE Technical Paper 980895 1998 10.4271/980895
- Worret, R. Bernhardt, S. Schwarz, F. Spicher, U. “Application of Different Cylinder Pressure Based Knock Detection Methods in Spark Ignition Engines,” SAE Technical Paper 2002-01-1668 2002 10.4271/2002-01-1668
- Shaver, G. M. Gerdes, J. C. Roelle, M. J. Caton, P. A. Edwards, C. F. “Dynamic Modeling of Residual-Affected Homogeneous Charge Compression Ignition Engines with Variable Valve Actuation,” AMSE Transactions 127 374 381 2005
- He, X. Donovan, M. T. Zigler, B. T. Palmer, T. R. Walton, S. M. Wooldridge, M. S. Atreya, A. “An Experimental and Modeling Study of Iso-octane Ignition Delay Times Under Homogeneous Charge Compression Ignition Conditions,” Comb. Flame 142 266 275 2005
- Walton, S. M. He, X. Zigler, B. T. Wooldridge, M. S. Atreya, A. “An Experimental Investigation of Iso-octane Ignition Phenomena,” Comb. Flame 150 246 262 2007
- Glassman, I. Yetter, R. A. “Combustion” Fourth Academic Press CA 978-0-12-088573-2 103 2008
- Yates, A. D. B. Viljoen, C. L. “An Improved Empirical Model for Describing Auto-ignition,” SAE Technical Paper 2008-01-1629 2008 10.4271/2008-01-1629
- Yates, A. Bell, A. Swarts, A. “Insights relating to the autoignition characteristics of alcohol fuels,” Fuel 89 83 93 2010
- Leppard, W. R. “The Chemical Origins of Fuel Octane Sensitivity,” SAE Technical Paper 902137 1990 10.4271/902137
- Northrop Grumman “Northrop Grumman Motor Gasolines, Winter 2004-2005,” Report No. NGMS-240 PPS 2005
- Sakai, Y. Inamura, T. Ogura, T. Koshi, M. Pitz, W. J. “Detailed Kinetic Modeling of Toluene Combustion over a Wide Range of Temperature and Pressure,” SAE Technical Paper 2007-01-1885 2007 10.4271/2007-01-1885
- Kee, R. J. Rupley, F. M. Miller, J. A. Coltrin, M. E. Grcar, J. F. Meeks, E. Moffat, H. K. Lutz, A. E. Dixon-Lewis, G. Smooke, M. D. Warnatz, J. Evans, G. H. Larson, R. S. Mitchell, R. E. Petzold, L. R. Reynolds, W. C. Caracotsios, M. Stewart, W. E. Glarborg, P. Wang, C. McLellan, C. L. Adigun, O. Houf, W. G. Chou, C. P. Miller, S. F. Ho, P. Young, P. D. Young, D. J. Hodgson, D. W. Petrova, M. V. Puduppakkam, K. V. CHEMKIN Release 4.1, Computer Software, Reaction Design San Diego, CA 2006
- Li, H. Miller, D. L. Cernansky, N. P. “Development of a Reduced Chemical Kinetic Model for Prediction of Preignition Reactivity and Autoignition of Primary Reference Fuels,” SAE Technical Paper 960498 1996 10.4271/960498
- Tanaka, S. Ayala, F. Keck, J. C. “A Reduced Chemical Kinetic Model for HCCI Combustion of Primary Reference Fuels in a Rapid Compression Machine,” Comb. Flame 133 467 481 2003
- Zheng, J. Yang, W. Miller, D. L. Cernansky, N. P. “Prediction of Pre-Ignition Reactivity and Ignition Delay for HCCI using a Reduced Chemical Kinetic Model,” SAE Technical Paper 2001-01-1025 2001 10.4271/2001-01-1025
- Zheng, J. Yang, W. Miller, D. L. Cernansky, N. P. “A Skeletal Chemical Kinetic Model for the HCCI Combustion Process,” SAE Technical Paper 2002-01-0423 2002 10.4271/2002-01-0423
- Zheng, J. Miller, D. L. Cernansky, N. P. “A Global Reaction Model for the HCCI Combustion Process,” SAE Technical Paper 2004-01-2950 2004 10.4271/2004-01-2950
- Curran, H. J. Gaffuri, P. Pitz, W. J. Westbrook, C. K. “A Comprehensive Modeling Study of n-Heptane Oxidation,” Comb. Flame 114 149 177 1998
- Curran, H. J. Gaffuri, P. Pitz, W. J. Westbrook, C. K. “A Comprehensive Modeling Study of iso-Octane Oxidation,” Comb. Flame 129 253 280 2002
- Lindstedt, R. P. Maurice, L. Q. “Detailed Kinetic Modeling of Toluene Combustion,” Comb. Sci. Tech. 120 119 167 1996
- Pitz, W. J. Seiser, R. Bozzelh, J. W. Da Costa, I. Fournet, R. Billaud, F. Battin-Leclerc, F. Seshadri, K. Westbrook, C. K. “Chemical Kinetic Characterization of Combustion of Toluene,” Proceedings of the 2ndJoint Meeting of the U.S. Section of the Combustion Institute Oakland, CA March 25 28 2001
- Dagaut, P. Pengloan, G. Ristori, A. “Oxidation, Ignition and Combustion of Toluene: Experimental and Detailed Chemical Kinetic Modeling,” Phys. Chem. Chem. Phys. 4 1846 1854 2002
- Bounacer, R. Da Costa, I. Fournet, R. Billaud, F. Battin-Leclerc, F. “Experimental and Modeling Study of the Oxidation of Toluene,” Int. J. Chem. Kinet. 37 25 49 2005
- Sivaramakrishnan, R. Tranter, R. S. Berzinsky, K. “A High Pressure Model for the Oxidation of Toluene,” Proc. Comb. Inst. 30 1165 1173 2005
- Andrae, J. C. G. Björnbom, P. Cracknell, R. F. Kalghatgi, G. T. “Autoignition of Toluene Reference Fuels at High Pressures Modeled with Detailed Chemical Kinetics,” Comb. Flame 149 2 24 2007
- Andrae, J. C. G. “Development of a Detailed Kinetic Model for Gasoline Surrogate Fuels,” Fuel 87 2013 2022 2008
- Halstead, M. P. Kirsch, L. J. Quinn, C. P. “The Autoignition of Hydrocarbon Fuels at High Temperatures and Pressures -Fitting of a Mathematical Model,” Comb. Flame 30 45 60 1977
- Sjöberg, M. Dec, J. M. “Combined Effects of Fuel-Type and Engine Speed on Intake Temperature Requirements and Completeness of Bulk-Gas Reactions for HCCI Combustion,” SAE Technical Paper 2003-01-3173 2003 10.4272/2003-01-3173
- Little, A. T. Selamet, A. Iqbal, A. Reese, R. Vick, R. “Autoignition Characteristics of Primary Reference Fuels and their Mixtures,” SAE Technical Paper 2009-01-2624 10.4271/2009-01-2624
- Grandin, B. Ångström, H.-E. Stålhammar, P. Olofsson, E. “Knock Suppression in a Turbocharged SI Engine Using Cooled EGR,” SAE Technical Paper 982476 10.4271/982476
- Sjöberg, M. Dec, J. E. Hwang, W. “Thermodynamic and Chemical Effects of EGR and Its Constituents on HCCI Autoignition,” SAE Technical Paper 2007-01-0207 10.4271/2007-01-0207