| 265 - 286 |
An experimental and kinetic modeling study of the pyrolysis and oxidation of n-C-3-C-5 aldehydes in shock tubes
Pelucchi M, Somers KP, Yasunaga K, Burke U, Frassoldati A, Ranzi E, Curran HJ, Faravelli T |
| 287 - 295 |
A dynamic adaptive method for hybrid integration of stiff chemistry
Gao Y, Liu YF, Ren ZY, Lu TF |
| 296 - 314 |
An experimental and modeling study of propene oxidation. Part 2: Ignition delay time and flame speed measurements
Burke SM, Burke U, Mc Donagh R, Mathieu O, Osorio I, Keesee C, Morones A, Petersen EL, Wang WJ, DeVerter TA, Oehlschlaeger MA, Rhodes B, Hanson RK, Davidson DF, Weber BW, Sung CJ, Santner J, Ju YG, Haas FM, Dryer FL, Volkov EN, Nilsson EJK, Konnov AA, Alrefae M, Khaled F, Farooq A, Dirrenberger P, Glaude PA, Battin-Leclerc F, Curran HJ |
| 315 - 330 |
An ignition delay and kinetic modeling study of methane, dimethyl ether, and their mixtures at high pressures
Burke U, Somers KP, O'Toole P, Zinner CM, Marquet N, Bourque G, Petersen EL, Metcalfe WK, Serinyel Z, Curran HJ |
| 331 - 344 |
Direct numerical simulation of circular expanding premixed flames in a lean quiescent hydrogen-air mixture: Phenomenology and detailed flame front analysis
Altantzis C, Frouzakis CE, Tomboulides AG, Boulouchos K |
| 345 - 367 |
Hydrodynamic instability and shear layer effect on the response of an acoustically excited laminar premixed flame
Schlimpert S, Hemchandra S, Meinke M, Schroder W |
| 368 - 374 |
Development and application of CN PLIF for single-shot imaging in turbulent flames
Zhou B, Brackmann C, Li ZS, Alden M |
| 375 - 387 |
Scaling turbulent flame speeds of negative Markstein length fuel blends using leading points concepts
Venkateswaran P, Marshall A, Seitzman J, Lieuwen T |
| 388 - 407 |
Unsteady vortex breakdown in an atmospheric swirl stabilised combustor. Part 1: Chamber behaviour
Ruggles A, Kelman J |
| 408 - 419 |
Stabilization and liftoff length of a non-premixed methane/air jet flame discharging into a high-temperature environment: An accelerated transported PDF method
Jangi M, Zhao XY, Haworth DC, Bai XS |
| 420 - 430 |
Carbon dioxide diluted methane/oxygen combustion in a rapidly mixed tubular flame burner
Shi BL, Hu J, Ishizuka S |
| 431 - 450 |
Large eddy simulation of turbulent spray combustion
Irannejad A, Banaeizadeh A, Jaberi F |
| 451 - 461 |
The effects of thermal and compositional stratification on the ignition and duration of homogeneous charge compression ignition combustion
Kodavasal J, Lavoie GA, Assanis DN, Martz JB |
| 462 - 469 |
Investigation of the effect of electrode geometry on spark ignition
Bane SPM, Ziegler JL, Shepherd JE |
| 470 - 477 |
Evolution of cellular structures on oblique detonation surfaces
Teng HH, Ng HD, Li K, Luo CT, Jiang ZL |
| 478 - 485 |
Detailed analysis of the CO oxidation chemistry around a coal char particle under conventional and oxy-fuel combustion conditions
Gonzalo-Tirado C, Jimenez S |
| 486 - 495 |
Solid-liquid transitions in homogenous ovalene, hexabenzocoronene and circumcoronene clusters: A molecular dynamics study
Chen DP, Akroyd J, Mosbach S, Opalka D, Kraft M |
| 496 - 505 |
Temporal release of potassium from pinewood particles during combustion
Zhang ZH, Song Q, Alwahabi ZT, Yao Q, Nathan GJ |
| 506 - 515 |
Laser-induced ignition modeling of HMX
Meredith KV, Gross ML, Beckstead MW |
| 516 - 527 |
Boron particle size effect on B/KNO3 ignition by a diode laser
Sivan J, Haas Y, Grinstein D, Kochav S, Yegudayev G, Kalontarov L |
