| 385 - 391 |
The mechanism of combustion of superfine aluminum powders
Kwon YS, Gromov AA, Ilyin AP, Popenko EM, Rim GH |
| 393 - 405 |
First-order conditional moment closure modeling of turbulent, nonpremixed hydrogen flames
Fairweather A, Woolley RM |
| 407 - 413 |
The pyrolysis and ignition of charring materials under an external heat flux
Yang LZ, Chen XJ, Zhou XD, Fan WC |
| 415 - 430 |
Turbulent burning velocity, burned gas distribution, and associated flame surface definition
Bradley D, Haq MZ, Hicks RA, Kitagawa T, Lawes M, Sheppard CGW, Woolley R |
| 431 - 440 |
An experimental study of fuel-rich 1,3-pentadiene and acetylene/propene flames
Atakan B, Lamprecht A, Kohse-Hoinghaus K |
| 441 - 450 |
Experimental investigation on two-phase pulse detonation engine
Fan W, Yan CJ, Huang XQ, Zhang Q, Zheng LX |
| 451 - 465 |
An adaptive chemistry approach to modeling complex kinetics in reacting flows
Schwer DA, Lu PS, Green WH |
| 467 - 481 |
A reduced chemical kinetic model for HCCI combustion of primary reference fuels in a rapid compression machine
Tanaka S, Ayala F, Keck JC |
| 483 - 493 |
An analysis of sub-limit flame dynamics using opposite propagating flames in mesoscale channels
Ju YG, Choi CW |
| 495 - 497 |
The chemical effect of CO2 replacement of N-2 in air on the burning velocity of CH4 and H-2 premixed flames
Liu FS, Guo HS, Smallwood GJ |
| 499 - 502 |
An assessment of stretch effects on a flame tip using the thin flame and thick flame formulations
Mukhopadhyay A, Puri IK |
| 503 - 506 |
Kinetic and transport effects of pressurized methane flames in a boundary layer
Andrae J, Bjorbom P, Edsberg L, Eriksson LE |
