1 "turbulent CH4/H2 flame over a bluff body. Combust."
2 "simulation of pollutant formation in a DIdiesel"
3 "process of diesel fuel spray in the initial stage of"
4 "piloted Jet diffusion flames" 138 :
5 "oxide LIF/Raman measurements in a turbulent H2 jet"
6 "of spray autoignition by the first-order conditional"
7 "moment closure model to predict NO formation in a"
8 "moment closure for turbulent combustion. Prog."
9 "methods for reacting turbulent flows. Combust. Flame"
10 "local concentration on soot formation and combustion"
1 "turbulent CH4/H2 flame over a bluff body. Combust."
2 "simulation of pollutant formation in a DIdiesel"
3 "process of diesel fuel spray in the initial stage of"
4 "piloted Jet diffusion flames" 138 :
5 "oxide LIF/Raman measurements in a turbulent H2 jet"
6 "of spray autoignition by the first-order conditional"
7 "moment closure model to predict NO formation in a"
8 "moment closure for turbulent combustion. Prog."
9 "methods for reacting turbulent flows. Combust. Flame"
10 "local concentration on soot formation and combustion"
11 "ivestigation of soot formation and oxidation under"
12 "dissipation rate of an initial binary scalar in"
13 "diesel engine conditions"
14 "conditional moment closure modeling of turbulent"
15 "combustion using the eulerian particle flamelet"
16 "autoignition at high pressures. Proc. R. Soc. Lond."
17 "^engine using multiple interactive flamelets. SAE"
18 "Threedimensional" 1998
19 "SAE Paper No"
20 "PDF modelling predictions with experimental nitric"
21 "Numerical simulation" 2002
22 "Numerical" 1995
23 "Modeling autoignition of a turbulent methane jet by"
24 "Modeling DIdiesel" 2000
25 "Conditional" 1999
26 "Atomization" 2005
27 ". Use of the conditional" 2002
28 ". Effect of turbulent structure and" 1978
29 ". A mathematical model for hydrocarbon" 1975
30 ". A comparison of CMC and" 1995