| 1 - 14 |
Diffusion edge-flame: Approximation of the flame tip Damkohler number
Boulanger J, Vervisch L |
| 15 - 26 |
The pressure pulses generated by the combustion of natural gas in bubbling fluidized beds
Zukowski W |
| 27 - 36 |
Ferrocene as a precursor reagent for metal-catalyzed carbon nanotubes: Competing effects
Vander Wal RL, Hall LJ |
| 37 - 47 |
Fe-catalyzed single-walled carbon nanotube synthesis within a flame environment
Vander Wal RL |
| 48 - 61 |
Effects of diluents on NOx formation in hydrogen counterflow flames
Rortveit GJ, Hustad JE, Li SC, Williams FA |
| 62 - 82 |
Shock-tube and modeling study of diacetylene pyrolysis and oxidation
Hidaka Y, Henmi Y, Ohonishi T, Okuno T, Koike T |
| 83 - 93 |
Numerical study of the effects of pressure and air-dilution on NO formation in Laminar counterflow diffusion flames of methane in high temperature air
Sohn CH, Jeong IM, Chung SH |
| 94 - 111 |
Use of the conditional moment closure model to predict NO formation in a turbulent CH4/H-2 flame over a bluff-body
Kim SH, Huh YY |
| 112 - 122 |
Determination of Markstein numbers in counterflow premixed flames
Davis SG, Quinard J, Searby G |
| 123 - 136 |
Markstein numbers in counterflow, methane- and propane-air flames: A computational study
Davis SG, Quinard J, Searby G |
| 137 - 146 |
Stability of multiple steady states of catalytic combustion
James A, Brindley J, McIntosh AC |
| 147 - 160 |
The quenching of laminar methane-air flames by water mists
Thomas GO |
