| 1 - 2 |
Fourth Mediterranean Combustion Symposium
Beretta F, Selcuk N, Mansour MS |
| 3 - 19 |
Sooting behavior dynamics of a non-buoyant laminar diffusion flame
Fuentes A, Rouvreau S, Joulain P, Vantelon JP, Legros G, Torero JL, Fernandez-Pello AC |
| 21 - 37 |
Numerical investigation of forced ignition in laminar counterflow non-premixed methane-air flames
Richardson ES, Mastorakos E |
| 39 - 60 |
A novel cfd code based on method of lines for reacting flows: Verification on methane/air diffusion flame
Tarhan T, Selcuk N |
| 61 - 89 |
Combustion reactions of paraffin components in liquid transportation fuels using generic rates
Zhang HR, Eddings EG, Sarofim AF |
| 91 - 115 |
Scalar transport in self-similar, developing, premixed, turbulent flames
Lipatnikov AN |
| 117 - 136 |
Experimental study of stability, structure and CH* chemiluminescence in a pressurized lean premixed methane turbulent flame
Taupin B, Cabot G, Martins G, Vauchelles D, Boukhalfa A |
| 137 - 151 |
On the theory of turbulent flame velocity
Bychkov V, Petchenko A, Akkerman V |
| 153 - 172 |
Interaction between chemistry and micro-mixing modeling in transported pdf simulations of turbulent non-premixed flames
Merci B, Naud B, Roekaerts D |
| 173 - 189 |
Les of the Sydney Swirl flame series: An initial investigation of the fluid dynamics
Stein O, Kempf AM, Janicka J |
| 191 - 206 |
Flame surface densities in premixed combustion at medium to high turbulence intensities
Gulder OL, Smallwood GJ |
| 207 - 225 |
Turbulent swirling natural gas flames: Stability characteristics, unsteady behavior and vortex breakdown
Al-Abdeli YM, Masri AR |
| 227 - 247 |
Modeling of NOx emissions from fluidized bed combustion of high volatile lignites
Afacan O, Gogebakan Y, Selcuk N |
| 249 - 263 |
Mixing and nozzle geometry effects on flame structure and stability
El-Mahallawy F, Abdelhafez A, Mansour MS |
| 265 - 280 |
Combustion of a solid fuel tube with contained liquid oxidizer in a hot gas atmosphere
Pelosi AD, Gany A |
| 281 - 291 |
Numerical study of the effect of injection modeling on mixing and flame stability in supersonic combustion
Akhgari M, Tabejamaat S, Mehdizadeh NS |
| 293 - 317 |
Effects of turbulence on spark ignition in inhomogeneous mixtures: A direct numerical simulation (DNS) study
Chakraborty N, Mastorakos E, Cant RS |
| 319 - 342 |
Air density effect on the atomization of liquid jets in crossflow
Bellofiore A, Cavaliere A, Ragucci R |
| 343 - 354 |
Study on spray combustion of hydrogen-oxygen in a high pressure chamber
Khaleghi H, Tabejammat S |
| 355 - 369 |
Investigation of species concentration and soot formation in a co-flowing diffusion flame of ethylene
D'Anna A, Kent JH, Santoro RJ |
| 371 - 385 |
Spectral properties of soot in the UV-visible range
Tregrossi A, Barbella R, Ciajolo A, Alfe M |
| 387 - 400 |
Soot and nanoparticle formation in laminar and turbulent flames
Commodo M, Violi S, D'Anna A, D'Alessio A, Allouis C, Beretta F, Minutolo P |
| 401 - 416 |
Comparison between rng and fractal combustion models for LES of unconfined explosions
Makarov D, Molkov V, Gostintsev Y |
| 417 - 436 |
CFD modeling of diesel oil and dme performance in a two-stroke free piston engine
Golovitchev VI, Bergman M, Montorsi L |
| 437 - 453 |
Numerical and experimental characterization of a self-regenerative flameless oxidation burner operation in a pilot-scale furnace
Lupant D, Pesenti B, Evrard P, Lybaert P |
| 455 - 456 |
Modeling diesel spray ignition using detailed chemistry with a progress variable approach (vol 178, pg 1977, 2007)
Lehtiniemi H, Mauss F, Balthasar M, Magnusson I |
