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Combustion Science and Technology Volume 87, 1993 - Issue 1-6
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Original Articles

On the Derivation of Global Ignition Kinetics from a Detailed Mechanism for Simple Hydrocarbon Oxidation

J. A. MULHOLLAND Dept. of Chemical Engineering, Massachusetts Institute of Technology, 66-153, Cambridge, MA, 02139, U.S.A.
,
A. F. SAROFIM Dept. of Chemical Engineering, Massachusetts Institute of Technology, 66-153, Cambridge, MA, 02139, U.S.A.
&
J. M. BEĖR Dept. of Chemical Engineering, Massachusetts Institute of Technology, 66-153, Cambridge, MA, 02139, U.S.A.
Pages 139-156 | Received 15 Aug 1991, Accepted 11 Jan 1991, Published online: 27 Apr 2007

Citations (9)

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Read on this site (2)

APOORVA AGARWAL & DENNISN. ASSANIS. (2001) Multi-Dimensional Modeling of Natural Gas Autoignition using Detailed Chemical Kinetics. Combustion Science and Technology 163:1, pages 177-210.
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KERMIT C. SMYTH & NELSON P. BRYNER. (1997) Short-Duration Autoignition Temperature Measurements For Hydrocarbon Fuels Near Heated Metal Surfaces. Combustion Science and Technology 126:1-6, pages 225-253.
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Articles from other publishers (7)

Roopesh Kumar Mehra, Hao Duan, Romualdas Juknelevičius, Fanhua Ma & Junyin Li. (2017) Progress in hydrogen enriched compressed natural gas (HCNG) internal combustion engines - A comprehensive review. Renewable and Sustainable Energy Reviews 80, pages 1458-1498.
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Dmitry Davidenko, Iskender Gökalp, Emmanuel Dufour & Daniel Gaffié. (2002) Kinetic Mechanism Validation and Numerical Simulation of Supersonic Combustion of Methane-Hydrogen Fuel. Kinetic Mechanism Validation and Numerical Simulation of Supersonic Combustion of Methane-Hydrogen Fuel.
S. Hong, M.S. Wooldridge & D.N. Assanis. (2002) Modeling of chemical and mixing effects on methane autoignition under direct-injection, stratified charged conditions. Proceedings of the Combustion Institute 29:1, pages 711-718.
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Milind S. Kulkarni & Milorad P. Duduković. (1998) Periodic Operation of Asymmetric Bidirectional Fixed-Bed Reactors with Temperature Limitations. Industrial & Engineering Chemistry Research 37:3, pages 770-781.
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Apoorva Agarwal & Dennis N. Assanis. Multi-Dimensional Modeling of Natural Gas Ignition Under Compression Ignition Conditions Using Detailed Chemistry. Multi-Dimensional Modeling of Natural Gas Ignition Under Compression Ignition Conditions Using Detailed Chemistry.
Anthony Hamins & Paul Borthwick. (1998) Suppression of ignition over a heated metal surface. Combustion and Flame 112:1-2, pages 161-170.
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Alison S. Tomlin, Tamás Turányi & Michael J. Pilling. 1997. Low-Temperature Combustion and Autoignition. Low-Temperature Combustion and Autoignition 293 437 .

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