| 435 - 447 |
Measurements of hydrocarbons using laser-induced breakdown spectroscopy
Ferioli F, Buckley SG |
| 448 - 460 |
Extinction of premixed flames of practical liquid fuels: Experiments and simulations
Holley AT, Dong Y, Andac MG, Egolfopoulos FN |
| 461 - 475 |
Direct numerical simulation of nonpremixed flame-wall interactions
Wang Y, Trouve A |
| 476 - 493 |
Study of the performance of three micromixing models in transported scalar PDFsimulations of a piloted jet diffusion flame ("Delft Flame III")
Merci B, Roekaerts D, Naud B |
| 494 - 512 |
Experimental investigation of stabilization mechanisms in turbulent, lifted jet diffusion flames
Su LK, Sun OS, Mungal MG |
| 513 - 525 |
Comparison of iso-octane burning rates between single-phase and two-phase combustion for small droplets
Lawes M, Lee Y, Marquez N |
| 526 - 544 |
A small detailed chemical-kinetic mechanism for hydrocarbon combustion
Petrova MV, Williams FA |
| 545 - 557 |
Reduction of a detailed reaction mechanism for hydrogen combustion under gas turbine conditions
Strohle J, Myhrvold T |
| 558 - 577 |
Combined surface density concepts for dense spray combustion
Jay S, Lacas F, Candel S |
| 578 - 591 |
Overlapping of heterogeneous and purely thermally activated solid-state processes in the combustion of a bituminous coal
Senneca O, Salatino P |
| 592 - 604 |
Assessment of ignition hazard in turbulent flammable gas mixers combining a Lagrangian approach and large eddy simulation
Gourara A, Roger F, Wang HY, Most JM |
| 605 - 618 |
Evaluation of the laminar diffusion flamelet model in the calculation of an axisymmetric coflow laminar ethylene-air diffusion flame
Liu FS, Guo HS, Smallwood GJ |
| 619 - 633 |
An adaptive reduction scheme to model reactive flow
Banerjee I, Ierapetritou MG |
| 634 - 637 |
Sources of CO emissions in an HCCI engine: A numerical analysis
Bhave A, Kraft M, Montorsi L, Mauss F |
| 638 - 641 |
Absorption of NO laser-induced fluorescence by hot O-2 and CO2
Verbiezen K, van Vliet AP, Meerts WL, Dam NJ, ter Meulen JJ |
