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Combustion Science and Technology Volume 32, 1983 - Issue 5-6
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Original Articles

A Stochastic Model of Turbulent Mixing for the Prediction of Burn Rate in a Spark-Ignition Engine

ROGER E. MILANE Department of Mechanical Engineering and Applied Mechanics, The University of Michigan, Ann Arbor, Ml, 48109, Poland
,
RODNEY j. TABACZYNSKI Engineering and Research Staff, Ford Motor Co., Dearborn, Ml, 48121, Poland
&
VEDAT S. ARPACI Department of Mechanical Engineering and Applied Mechanics, The University of Michigan, Ann Arbor, Ml, 48109, Poland
Pages 211-236 | Received 21 Sep 1982, Accepted 11 Jan 1983, Published online: 30 Mar 2007

Citations (9)

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Read on this site (3)

IN-HENGM. LEI & ROGERE. MILANE. (1990) Stochastic Model for Flame Propagation at Lean Ignition Limit of Spark Ignition Engines. Combustion Science and Technology 69:1-3, pages 33-51.
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F. N. A. A. Al-Mamar, J. Hynes & C. G. W. Sheppard. (1986) Combustion Rate in a Dual Chamber S.I. Engine. Combustion Science and Technology 45:1-2, pages 85-100.
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R. W. Anderson & M. T. Lim. (1985) Investigation of Misfire in a Fast Burn Spark Ignition Engine. Combustion Science and Technology 43:3-4, pages 183-196.
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Articles from other publishers (6)

Jingping Liu, Guohui Zhu, Jianqin Fu, Zhengxin Xu, Jun Yao & Zhangsong Zhan. (2017) Quantitative study on in-cylinder combustion and heat release characteristic parameters of gasoline engine based on single variable sweeping tests. Applied Thermal Engineering 117, pages 487-500.
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Hakan Bayraktar & Orhan Durgun. (2004) Development of an empirical correlation for combustion durations in spark ignition engines. Energy Conversion and Management 45:9-10, pages 1419-1431.
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Satoru Ishizuka. (2002) Flame propagation along a vortex axis. Progress in Energy and Combustion Science 28:6, pages 477-542.
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S. Merdjani & C. G. W. Sheppard. Gasoline Engine Cycle Simulation Using the Leeds Turbulent Burning Velocity Correlations. Gasoline Engine Cycle Simulation Using the Leeds Turbulent Burning Velocity Correlations.
M. A. Gorokhovskii & V. P. Khlynin. (1986) Computation of the dynamics of swirling vortex flow in a cylinder of an internal-combustion engine during the compression stroke. Journal of Engineering Physics 51:4, pages 1238-1243.
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Mario Belli, Guido A. Danieli, Mario Amelio, Sergio Bova & Nella Fragiacomo. A Detonation Model in Spark-Ignition Engines: Preliminary Results on Engine Octane Requirement. A Detonation Model in Spark-Ignition Engines: Preliminary Results on Engine Octane Requirement.

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