Turbulent premixed combustion: Flamelet structure and its effect on turbulent burning velocities JF Driscoll Progress in Energy and Combustion Science 34 (1), 91-134, 2008 | 916 | 2008 |
Paradigms in turbulent combustion research RW Bilger, SB Pope, KNC Bray, JF Driscoll Proceedings of the Combustion Institute 30 (1), 21-42, 2005 | 449 | 2005 |
Combustion characteristics of a dual-mode scramjet combustor with cavity flameholder DJ Micka, JF Driscoll Proceedings of the combustion institute 32 (2), 2397-2404, 2009 | 415 | 2009 |
Measured properties of turbulent premixed flames for model assessment, including burning velocities, stretch rates, and surface densities SA Filatyev, JF Driscoll, CD Carter, JM Donbar Combustion and Flame 141 (1-2), 1-21, 2005 | 367 | 2005 |
Images of the quenching of a flame by a vortex—To quantify regimes of turbulent combustion WL Roberts, JF Driscoll, MC Drake, LP Goss Combustion and Flame 94 (1-2), 58-69, 1993 | 277 | 1993 |
Nitric oxide levels of turbulent jet diffusion flames: effects of residence time and Damkohler number JF Driscoll, RH Chen, Y Yoon Combustion and Flame 88 (1), 37-49, 1992 | 271 | 1992 |
Enhancement of flame blowout limits by the use of swirl D Feikema, RH Chen, JF Driscoll Combustion and Flame 80 (2), 183-195, 1990 | 237 | 1990 |
The role of the recirculation vortex in improving fuel-air mixing within swirling flames RH Chen, JF Driscoll Symposium (International) on Combustion 22 (1), 531-540, 1989 | 211 | 1989 |
Reaction zone structure in turbulent nonpremixed jet flames—from CH-OH PLIF images JM Donbar, JF Driscoll, CD Carter Combustion and Flame 122 (1-2), 1-19, 2000 | 208 | 2000 |
Liftoff of turbulent jet flames—assessment of edge flame and other concepts using cinema-PIV A Upatnieks, JF Driscoll, CC Rasmussen, SL Ceccio Combustion and Flame 138 (3), 259-272, 2004 | 201 | 2004 |
Stability limits of cavity-stabilized flames in supersonic flow CC Rasmussen, JF Driscoll, KY Hsu, JM Donbar, MR Gruber, CD Carter Proceedings of the Combustion Institute 30 (2), 2825-2833, 2005 | 196 | 2005 |
Vorticity generation and attenuation as vortices convect through a premixed flame CJ Mueller, JF Driscoll, DL Reuss, MC Drake, ME Rosalik Combustion and flame 112 (3), 342-358, 1998 | 196 | 1998 |
Nitric oxide levels of jet diffusion flames: effects of coaxial air and other mixing parameters RH Chen, JF Driscoll Symposium (International) on combustion 23 (1), 281-288, 1991 | 196 | 1991 |
Numerical simulation of a laboratory-scale turbulent slot flame JB Bell, MS Day, JF Grcar, MJ Lijewski, JF Driscoll, SA Filatyev Proceedings of the combustion institute 31 (1), 1299-1307, 2007 | 179 | 2007 |
Vortex-shedding and mixing layer effects on periodic flashback in a lean premixed prevaporized gas turbine combustor SK Dhanuka, JE Temme, JF Driscoll, HC Mongia Proceedings of the Combustion Institute 32 (2), 2901-2908, 2009 | 178 | 2009 |
Combustion instability of a lean premixed prevaporized gas turbine combustor studied using phase-averaged PIV JE Temme, PM Allison, JF Driscoll Combustion and Flame 161 (4), 958-970, 2014 | 176 | 2014 |
Premixed flames subjected to extreme levels of turbulence part I: Flame structure and a new measured regime diagram AW Skiba, TM Wabel, CD Carter, SD Hammack, JE Temme, JF Driscoll Combustion and Flame 189, 407-432, 2018 | 175 | 2018 |
Effect of heat release and swirl on the recirculation within swirl-stabilized flames V Tangirala, RH Chen, JF Driscoll Combustion science and technology 51 (1-3), 75-95, 1987 | 172 | 1987 |
Ram-scram transition and flame/shock-train interactions in a model scramjet experiment ML Fotia, JF Driscoll Journal of Propulsion and Power 29 (1), 261-273, 2013 | 166 | 2013 |
Rayleigh scattering cross sections of combustion species at 266, 355, and 532 nm for thermometry applications JA Sutton, JF Driscoll Optics letters 29 (22), 2620-2622, 2004 | 166 | 2004 |