1.
A numerical study of the effects of n-propylbenzene addition to n-dodecane on soot formation in a laminar coflow diffusion flame
by Zhang, Tongfeng
Combustion and Flame, April 2018, Vol.190, pp.416-431
2.
Experimental investigation and detailed modeling of soot aggregate formation and size distribution in laminar coflow diffusion flames of Jet A-1, a synthetic kerosene, and n-decane
by Saffaripour, Meghdad
Combustion and Flame, March 2014, Vol.161(3), pp.848-863
3.
Application of an enhanced PAH growth model to soot formation in a laminar coflow ethylene/air diffusion flame
by Dworkin, Seth B
Combustion and Flame, 2011, Vol.158(9), pp.1682-1695
4.
Detailed numerical modeling of PAH formation and growth in non-premixed ethylene and ethane flames
by Slavinskaya, Nadezhda A
Combustion and Flame, 2012, Vol.159(3), pp.979-995
5.
A soot particle surface reactivity model applied to a wide range of laminar ethylene/air flames
by Veshkini, Armin
Combustion and Flame, December 2014, Vol.161(12), pp.3191-3200
6.
Detailed modeling of CO2 addition effects on the evolution of soot particle size distribution functions in premixed laminar ethylene flames
by Naseri, Ali
Combustion and Flame, September 2017, Vol.183, pp.75-87
7.
Application of PAH-condensation reversibility in modeling soot growth in laminar premixed and nonpremixed flames
by Veshkini, Armin
Combustion and Flame, May 2016, Vol.167, pp.335-352
8.
Soot formation with C1 and C2 fuels using an improved chemical mechanism for PAH growth
by Chernov, Victor
Combustion and Flame, February 2014, Vol.161(2), pp.592-601
9.
Comparison of multiple diagnostic techniques to study soot formation and morphology in a diffusion flame
by Kholghy, Mohammad Reza
Combustion and Flame, February 2017, Vol.176, pp.567-583
10.
Soot temperature and volume fraction retrieval from spectrally resolved flame emission measurement in laminar axisymmetric coflow diffusion flames: Effect of self-absorption
by Liu, Fengshan
Combustion and Flame, September 2013, Vol.160(9), pp.1693-1705
11.
Experimental and numerical study of soot formation in laminar coflow diffusion flames of gasoline/ethanol blends
by Khosousi, Ali
Combustion and Flame, October 2015, Vol.162(10), pp.3925-3933
12.
Development of a numerical model to simulate carbon black synthesis and predict the aggregate structure in flow reactors
by Naseri, Ali
Combustion and Flame, September 2019, Vol.207, pp.314-326
13.
The chemical structure effects of alkylbenzenes on soot formation in a laminar co-flow flame
by Chu, Carson
Combustion and Flame, June 2019, Vol.204, pp.237-249
14.
Understanding the formation and growth of polycyclic aromatic hydrocarbons (PAHs) and young soot from n-dodecane in a sooting laminar coflow diffusion flame
by Mitra, Tirthankar
Combustion and Flame, April 2019, Vol.202, pp.33-42
15.
On the effect of carbon monoxide addition on soot formation in a laminar ethylene/air coflow diffusion flame
by Guo, Hongsheng
Combustion and Flame, 2009, Vol.156(6), pp.1135-1142
16.
An experimental and numerical study of the effects of dimethyl ether addition to fuel on polycyclic aromatic hydrocarbon and soot formation in laminar coflow ethylene/air diffusion...
by Liu, F
Combustion and Flame, 2011, Vol.158(3), pp.547-563
17.
Numerical and experimental study of an axisymmetric coflow laminar methane–air diffusion flame at pressures between 5 and 40 atmospheres
by Liu, Fengshan
Combustion and Flame, 2006, Vol.146(3), pp.456-471
18.
Determination of the morphology of soot aggregates using the relative optical density method for the analysis of TEM images
by Tian, Kuo
Combustion and Flame, 2006, Vol.144(4), pp.782-791
19.
Distribution of the number of primary particles of soot aggregates in a nonpremixed laminar flame
by Tian, Kuo
Combustion and Flame, 2004, Vol.138(1), pp.195-198
20.
Soot concentration and temperature measurements in co-annular, nonpremixed CH 4/air laminar flames at pressures up to 4 MPa
by Thomson, Kevin A
Combustion and Flame, 2005, Vol.140(3), pp.222-232
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