| 3 - 26 |
Are premixed turbulent stagnation flames equivalent to fully developed ones? A computational study
Lipatnikov AN, Chomiak J |
| 27 - 42 |
An algorithm for extracting chemical reactor network models from CFD simulation of industrial combustion systems
Falcitelli M, Tognotti L, Pasini S |
| 43 - 71 |
Effect of boundary layer reactions on the conversion of char-N to NO, N2O, and HCN at fluidized-bed combustion conditions
Molina A, Sarofim AF, Ren W, Lu JF, Yue GX, Beer JM, Haynes BS |
| 73 - 91 |
Chemical kinetic modeling of combustion in internal combustion engines using reduced chemistry
Soyhan HS, Mauss F, Sorusbay C |
| 93 - 110 |
The use of counterflow flames for the evaluation of burning velocities and stretch effects in hydrogen/air mixtures
Davis SG, Searby G |
| 111 - 127 |
Ethylene combustion studied over a wide temperature range in high-temperature shock waves
Cadman P, Bambrey RJ, Box SK, Thomas GO |
| 129 - 150 |
Co-combustion of coal and tire residue in a pilot plant: A simplified modeling approach for scale-up predictionsof char oxidation
Biagini E, Tognotti L, Malloggi S, Pasini S |
| 151 - 169 |
The influence of sorbent properties and reaction temperature on sorbent attrition, sulfur uptake, and particle sulfation pattern during fluidized-bed desulfurization
Montagnaro F, Salatino P, Scala F |
| 171 - 186 |
The effect of fiberglass concentration on the piloted ignition of polypropylene/fiberglass composites
Stevanovic A, Mehta S, Walther DC, Fernandez-Pello AC |
| 187 - 203 |
Estimation of a total mass transfer number from the standoff distance of a spreading flame
Torero JL, Vietoris T, Legros G, Joulain P |
| 205 - 222 |
Mechanistic pathways to explain H/C ratio of soot precursors
Violi A, Sarofim AF, Truong TN |
| 223 - 239 |
Engineering predictions of explosive layer formation in flammable-liquid spills
Tamanini F |
| 241 - 256 |
A comparative study between diesel and dual-fuel engines: Performance and emissions
Galal MG, Aal MMA, El Kady MA |
| 257 - 278 |
Calculation of droplet deformationby surface tension effects using the level set method
Balabel A, Binninger B, Herrmann M, Peters N |
| 279 - 294 |
Reaction path analysis of the formation of aromatics and soot in a coflowing laminar diffusion flame of ethylene
D'Anna A, D'Alessio A, Kent J |
| 295 - 308 |
Regeneration of a soot-trap ceramic foam by a single-mode microwave cavity
Palma V, D'Amore M, Russo P, D'Arco A, Ciambelli P |
| 309 - 324 |
Formation of low- and high-molecular-weight hydrocarbon species in sooting ethylene flames
Apicella B, Barbella R, Ciajolo A, Tregrossi A |
| 325 - 344 |
Trace-metal speciation during sludge combustion and incineration
Mkilaha ISN, Yao H, Naruse I |
| 345 - 359 |
Structural characterization of products from fuel-rich combustion: An approach based on size exclusion chromatography
Apicella B, Ciajolo A, Suelves I, Morgan TJ, Herod AA, Kandiyoti R |
| 361 - 375 |
Catalytic combustion of methane in a fluidized bed reactor under fuel-lean conditions
Iamarino M, Chirone R, Pirone R, Russo G, Salatino P |
| 377 - 398 |
Evidence and characterization of nanoparticles produced in nonsooting premixed flames
Cecere D, Sgro LA, Basile G, D'Alessio A, D'Anna A, Minutolo P |
| 399 - 417 |
Experimental formulation and kinetic model for JP-8 surrogate mixtures
Violi A, Yan S, Eddings EG, Sarofim F, Granata S, Faravelli T, Ranzi E |
