| 225 - 231 |
A dynamic adaptive chemistry scheme with error control for combustion modeling with a large detailed mechanism
Gou XL, Chen Z, Sun WT, Ju YG |
| 232 - 239 |
Ignition behavior and surrogate modeling of JP-8 and of camelina and tallow hydrotreated renewable jet fuels at low temperatures
Allen C, Valco D, Toulson E, Edwards T, Lee T |
| 240 - 250 |
A two-equation model for non-unity Lewis number differential diffusion in lean premixed laminar flames
Regele JD, Knudsen E, Pitsch H, Blanquart G |
| 251 - 264 |
Evaluation of radiation modeling approaches for non-premixed flamelets considering a laminar methane air flame
Messig D, Hunger F, Keller J, Hasse C |
| 265 - 275 |
The effects of multicomponent fuel droplet evaporation on the kinetics of strained opposed-flow diffusion flames
Wang CG, Dean AM, Zhu HY, Kee RJ |
| 276 - 284 |
kHz-rate particle-image velocimetry of induced instability in premixed propane/air flame by millisecond pulsed current-voltage
Schmidt J, Kostka S, Roy S, Gord J, Ganguly B |
| 285 - 294 |
Pulsating instability of externally forced premixed counterflow flame
Valiev DM, Zhu MQ, Bansal G, Kolla H, Law CK, Chen JH |
| 295 - 306 |
Flame radiation feedback to fuel surface in medium ethanol and heptane pool fires with cross air flow
Hu LH, Liu S, Wu L |
| 307 - 321 |
Self-induced unstable behaviors of CH4 and H-2/CH4 flames in a model combustor with a low-swirl injector
Therkelsen PL, Portillo JE, Littlejohn D, Martin SM, Cheng RK |
| 322 - 334 |
Multiply conditioned analyses of stratification in highly swirling methane/air flames
Sweeney MS, Hochgreb S, Dunn MJ, Barlow RS |
| 335 - 339 |
On the flame length in firewhirls with strong vorticity
Klimenko AY, Williams FA |
| 340 - 350 |
Principal component analysis of turbulent combustion data: Data pre-processing and manifold sensitivity
Parente A, Sutherland JC |
| 351 - 365 |
Extension of the turbulent flame speed closure model to ignition in multiphase flows
Boyde JM, Le Clercq PC, Di Domenico M, Aigner M |
| 366 - 383 |
Inert-droplet and combustion effects on turbulence in a diluted diffusion flame
Xia J, Zhao H, Megaritis A, Luo KH, Cairns A, Ganippa LC |
| 384 - 395 |
PDF modeling and simulations of pulverized coal combustion - Part 1: Theory and modeling
Stollinger M, Naud B, Roekaerts D, Beishuizen N, Heinz S |
| 396 - 410 |
PDF modeling and simulations of pulverized coal combustion - Part 2: Application
Stollinger M, Naud B, Roekaerts D, Beishuizen N, Heinz S |
| 411 - 416 |
Kinetics of CO2 gasification for coals of different ranks under oxy-combustion conditions
Gonzalo-Tirado C, Jimenez S, Ballester J |
| 417 - 431 |
CFD simulations of biofuel bed conversion: A submodel for the drying and devolatilization of thermally thick wood particles
Strom H, Thunman H |
| 432 - 437 |
Nanothermite reactions: Is gas phase oxygen generation from the oxygen carrier an essential prerequisite to ignition?
Jian GQ, Chowdhury S, Sullivan K, Zachariah MR |
| 438 - 446 |
Synthesis and reactivity of nano-Ag2O as an oxidizer for energetic systems yielding antimicrobial products
Sullivan KT, Wu CW, Piekiel NW, Gaskell K, Zachariah MR |
| 447 - 462 |
High resolution WENO simulation of 3D detonation waves
Wang C, Shu CW, Han WH, Ning JG |
| 463 - 472 |
Numerical simulation of one-dimensional aluminum particle-air detonation with realistic heat capacities
Teng HH, Jiang ZL |
| 473 - 485 |
An experimental and numerical study of surface chemical interactions in the combustion of propylene over platinum
Badra J, Masri AR, Zhou CL, Haynes BS |
