| 1 - 15 |
Pulsed TV holography and schlieren studies, and large eddy simulations of a turbulent jet diffusion flame
Mattsson R, Kupiainen M, Gren P, Wahlin A, Carlsson TE, Fureby C |
| 16 - 27 |
Modeling the propagation of drying and decomposition fronts in wood
Galgano A, Di Blasi C |
| 28 - 38 |
Investigation of a dynamic diffusion flame of H-2 in air with laser diagnostics and numerical modeling
Grisch F, Attal-Tretout B, Bresson A, Bouchardy P, Katta VR, Roquemore WM |
| 39 - 51 |
Heat transfer mechanisms of laminar flames of hydrogen plus oxygen
Cremers MFG, Remie MJ, Schreel KRAM, de Goey LPH |
| 52 - 60 |
Measurements of dimethyl ether/air mixture burning velocities by using particle image velocimetry
Zhao Z, Kazakov A, Dryer FL |
| 61 - 76 |
Buoyancy effects in strongly pulsed turbulent diffusion flames
Hermanson JC, Johari H, Stocker DP, Hegde UG |
| 77 - 89 |
Optimization of a catalytic combustor using electrosprayed liquid hydrocarbons for mesoscale power generation
Kyritsis DC, Coriton B, Faure F, Roychoudhury S, Gomez A |
| 90 - 105 |
Fuel effects on NOx emissions in partially premixed flames
Naha S, Aggarwal SK |
| 106 - 125 |
Control of combustion instability with a high-momentum air-jet
Uhm JH, Acharya S |
| 126 - 141 |
Experimental study of the effect of fuel mass flux on a 1-m-diameter methane fire and comparison with a hydrogen fire
Tieszen SR, O'Hern TJ, Weckman EJ, Schefer RW |
| 142 - 151 |
Comparison of OH time-series measurements and large-eddy simulations in hydrogen jet flames
Renfro MW, Chaturved A, King GB, Laurendeau NM, Kempf A, Dreizler A, Janicka J |
| 152 - 166 |
Measurements of the laminar burning velocity for mixtures of methanol and air from a constant-volume vessel using a multizone model
Saeed K, Stone CR |
| 167 - 175 |
Formation of Ni-catalyzed multiwalled carbon nanotubes and nanofibers on a substrate using an ethylene inverse diffusion flame
Lee GW, Jurng J, Hwang J |
