| 853 - 860 |
Oxidation of methyl formate and its interaction with nitric oxide
Alzueta MU, Aranda V, Monge F, Millera A, Bilbao R |
| 861 - 869 |
Using Bayesian analysis to quantify uncertainties in the H + O-2 -> OH plus O reaction
Miki K, Prudencio EE, Cheung SH, Terejanu G |
| 870 - 886 |
A computational tool for the detailed kinetic modeling of laminar flames: Application to C2H4/CH4 coflow flames
Cuoci A, Frassoldati A, Faravelli T, Ranzi E |
| 887 - 897 |
An extinction criterion for nonpremixed flames subject to brief periods of high dissipation rates
Hewson JC |
| 898 - 908 |
A novel principal component analysis-based acceleration scheme for LES-ODT: An a priori study
Mirgolbabaei H, Echekki T |
| 909 - 919 |
A novel framework for the quantitative analysis of high resolution transmission electron micrographs of soot I. Improved measurement of interlayer spacing
Toth P, Palotas AB, Eddings EG, Whitaker RT, Lighty JS |
| 920 - 932 |
A novel framework for the quantitative analysis of high resolution transmission electron micrographs of soot II. Robust multiscale nanostructure quantification
Toth P, Palotas AB, Eddings EG, Whitaker RT, Lighty JS |
| 933 - 946 |
MILD oxy-combustion of gaseous fuels in a laboratory-scale furnace
Li PF, Dally BB, Mi JC, Wang FF |
| 947 - 958 |
A new model for silicon nanoparticle synthesis
Menz WJ, Kraft M |
| 959 - 969 |
Post-flame gas-phase sulfation of potassium chloride
Li B, Sun ZW, Li ZS, Alden M, Jakobsen JG, Hansen S, Glarborg P |
| 970 - 981 |
Experimental and quantum mechanics investigations of early reactions of monomethylhydrazine with mixtures of NO2 and N2O4
Liu WG, Wang SQ, Dasgupta S, Thynell ST, Goddard WA, Zybin S, Yetter RA |
| 982 - 992 |
Coupling micro and meso-scale combustion models of AP/HTPB propellants
Gross ML, Hedman TD, Son SF, Jackson TL, Beckstead MW |
