| 551 - 559 |
Criteria for piloted ignition of combustible solids
Lyon RE, Quintiere JG |
| 560 - 572 |
The sampling of nanoparticles of MgO formed when doping an oxygen-rich flame with magnesium: The measurement of the concentrations and size-distributions of these nanoparticles
Fennell PS, Dennis JS, Hayhurst A |
| 573 - 580 |
The evolution and cellular structure of a detonation subsequent to a head-on interaction with a shock wave
Botros BB, Ng HD, Zhu Y, Ju Y, Lee JHS |
| 581 - 600 |
Analysis of high-pressure hydrogen, methane, and heptane laminar diffusion flames: Thermal diffusion factor modeling
Palle S, Miller RS |
| 601 - 622 |
Instabilities and soot formation in high-pressure, rich, iso-octane-air explosion flames - 1. Dynamical structure
Lockett RD, Woolley R |
| 623 - 638 |
'Hybrid' multiple mapping conditioning on passive and reactive scalars
Cleary M, Kronenburg A |
| 639 - 648 |
Electrical control of the thermodiffusive instability in premixed propane-air flames
Wisman DL, Marcum SD, Ganguly BN |
| 649 - 664 |
Numerical and experimental investigation of a mild combustion burner
Galletti C, Parente A, Tognotti L |
| 665 - 675 |
Radiative extinction of gaseous spherical diffusion flames in microgravity
Santa KJ, Chao BH, Sunderland PB, Urban DL, Stocker DP, Axelbaum RL |
| 676 - 684 |
The response of buoyant laminar diffusion flames to low-frequency forcing
Williams TC, Shaddix CR, Schefer RW, Desgroux P |
