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Combustion and Flame
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Top Articles
Combustion and Flame
Energy
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Chemical Engineering
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Physics
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Chemistry
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Thermodynamics
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Fuel Technology
5.3
(top 2%)
Impact Factor
5.6
(top 2%)
extended IF
203
(top 1%)
H-Index
2.7K
authors
10.9K
papers
388.8K
citations
3.5K
citing journals
27.9K
citing authors
Most Cited Articles of Combustion and Flame
Title
Year
Citations
A Comprehensive Modeling Study of n-Heptane Oxidation
1998
1.6K
Simplifying chemical kinetics: Intrinsic low-dimensional manifolds in composition space
1992
1.1K
A comprehensive modeling study of iso-octane oxidation
2002
1.1K
A new approach to thermochemical calculations of condensed fuel-oxidizer mixtures
1981
965
A detailed kinetic modeling study of aromatics formation in laminar premixed acetylene and ethylene flames
1997
940
Kinetic modeling of soot formation with detailed chemistry and physics: laminar premixed flames of C2 hydrocarbons
2000
852
Kinetic and thermodynamic issues in the formation of aromatic compounds in flames of aliphatic fuels
1992
738
Global reaction schemes for hydrocarbon combustion
1988
708
Burning velocities of mixtures of air with methanol, isooctane, and indolene at high pressure and temperature
1982
703
Combustion in swirling flows: A review
1974
678
A comprehensive detailed chemical kinetic reaction mechanism for combustion of n-alkane hydrocarbons from n-octane to n-hexadecane
2009
596
On reduced mechanisms for methaneair combustion in nonpremixed flames
1990
587
Laminar burning velocity and Markstein lengths of methane–air mixtures
2000
540
The autoignition of hydrocarbon fuels at high temperatures and pressures—Fitting of a mathematical model
1977
535
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
1998
524
Soot particle measurements in diffusion flames
1983
511
Shock-tube investigation of self-ignition of n-heptane-air mixtures under engine relevant conditions
1993
462
Burning velocities, markstein lengths, and flame quenching for spherical methane-air flames: A computational study
1996
456
An efficient error-propagation-based reduction method for large chemical kinetic mechanisms
2008
454
Aromatic and Polycyclic Aromatic Hydrocarbon Formation in a Laminar Premixed n-Butane Flame
1998
444
Shock tube determination of ignition delay times in full-blend and surrogate fuel mixtures
2004
443
Two-stage ignition in HCCI combustion and HCCI control by fuels and additives
2003
442
Self-ignition of S.I. engine model fuels: A shock tube investigation at high pressure
1997
438
A simplified reaction mechanism for soot formation in nonpremixed flames
1991
431
An experimental and detailed chemical kinetic modeling study of hydrogen and syngas mixture oxidation at elevated pressures
2013
430
previous
1999
2000
2001
How are inpact factors calculated?
The impact factor (IF) is calculated by counting citations from peer-reviewed journals only.
extended IF
also counts citations from books and conference papers. However, no patent, abstract, working papers, online documents, etc., are covered.
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