| 729 - 743 |
Laser-induced fluorescence measurements and modeling of nitric oxide in premixed flames of CO+H-2+CH4 and air at high pressures I. Nitrogen fixation
Charlston-Goch D, Chadwick BL, Morrison RJS, Campisi A, Thomsen DD, Laurendeau NM |
| 744 - 751 |
Inhibition and promotion of combustion by organophosphorus compounds added to flames of CH4 or H-2 in O-2 and Ar
Korobeinichev OP, Bolshova TA, Shvartsberg VM, Chernov AA |
| 752 - 762 |
Growth of soot particles in counterflow diffusion flames of ethylene
Hwang JY, Chung SH |
| 763 - 777 |
Large molecules, ions, radicals, and small soot particles in fuel-rich hydrocarbon flames Part V: Positive ions of polycyclic aromatic hydrocarbons (PAH) in low-pressure premixed flames of benzene and oxygen
Fialkov AB, Dennebaum J, Homann KH |
| 778 - 787 |
The chemical effects of carbon dioxide as an additive in an ethylene diffusion flame: Implications for soot and NOx formation
Liu FS, Guo HS, Smallwood GJ, Gulder OL |
| 788 - 803 |
Edge flames and partially premixed combustion in diffusion flame quenching
Favier V, Vervisch L |
| 804 - 819 |
Soot formation in laminar acetylene/air diffusion flames at atmospheric pressure
Xu F, Faeth GM |
| 820 - 838 |
Rapid flame propagation in a vortex tube in perspective of vortex breakdown phenomena
Umemura A, Tomita K |
| 839 - 851 |
The visualization and mapping of turbulent premixed impinging flames
Foat T, Yap KP, Zhang Y |
| 852 - 864 |
Experimental observations of spot radiative ignition and subsequent three-dimensional flame spread over thin cellulose fuels
Olson SL, Kashiwagi T, Fujita O, Kikuchi M, Ito K |
| 865 - 878 |
Effects of partial premixing on pollutant emissions in swirling methane jet flames
Cheng TS, Chao YC, Wu DC, Hsu HW, Yuan T |
| 879 - 892 |
A numerical and experimental investigation of premixed methane-air flame transient response
Najm HN, Paul PH, McIlroy A, Knio OM |
| 893 - 905 |
Edge-flames and sublimit hydrogen combustion
Short M, Buckmaster J, Kochevets S |
| 906 - 919 |
Augmented reduced mechanisms for NO emission in methane oxidation
Sung CJ, Law CK, Chen JY |
| 920 - 930 |
Rearrangements in metals environment of inorganic particles during combustion and solidification
Ramesh A, Kozinski JA |
| 931 - 941 |
Catalytic removal of NO from post-flame gases in low pressure stagnation-point flames over platinum
Khadiya N, Glumac NG |
| 942 - 954 |
Partitioning of trace elements in the flue gas front coal combustion
Yan R, Gauthier D, Flamant G |
| 955 - 964 |
Heat transfer and combustion characteristics of an array of radial jet reattachment flames
Wu J, Seyed-Yagoobi J, Page RH |
| 965 - 973 |
Burning velocities in catalytically assisted self-propagating high-temperature combustion synthesis systems
Kim T, Wooldridge MS |
| 974 - 981 |
Diffusion-flame dynamics in von Karman boundary layers
Nayagam V, Williams FA |
| 982 - 1000 |
Experiments on collapsing cylindrical flames
Durox D, Ducruix S, Candel S |
| 1001 - 1011 |
Combustion of water-in-oil emulsion layers supported on water
Walavalkar AY, Kulkarni AK |
| 1012 - 1031 |
Modeling and measurements of a 16-kW turbulent nonadiabatic syngas diffusion flame in a cooled cylindrical combustion chamber
Louis JJJ, Kok JBW, Klein SA |
| 1032 - 1039 |
Effect of oxygen addition on polycyclic aromatic hydrocarbon formation in 1,3 butadiene counter-flow diffusion flames
Olten N, Senkan S |
| 1040 - 1054 |
Ignition and combustion of aluminum particles in shocked H2O/O-2/Ar and CO2/O-2/Ar mixtures
Servaites J, Krier H, Melcher JC, Burton RL |
| 1055 - 1070 |
Nonsteady burning of periodic sandwich propellants with complete coupling between the solid and gas phases
Hegab A, Jackson TL, Buckmaster J, Stewart DS |
| 1071 - 1073 |
Pre-mixed laminar flames in a uniform magnetic field
Mizutani Y, Fuchihata M, Ohkura Y |
