| 1 - 2 |
A dedication to Professor Chung King (Ed) Law Preface
Chung SH, Yang V, Yetter RA |
| 3 - 17 |
Theory and modeling of relevance to prompt-NO formation at high pressure
Klippenstein SJ, Pfeifle M, Jasper AW, Glarborg P |
| 18 - 29 |
Critical kinetic uncertainties in modeling hydrogen/carbon monoxide, methane, methanol, formaldehyde, and ethylene combustion
Tao YJ, Smith GP, Wang H |
| 30 - 39 |
Dynamic adaptive combustion modeling of spray flames based on chemical explosive mode analysis
Xu C, Ameen MM, Som S, Chen JH, Ren ZY, Lu TF |
| 40 - 49 |
A combined laser absorption and gas chromatography sampling diagnostic for speciation in a shock tube
Ferris AM, Davidson DE, Hanson RK |
| 50 - 62 |
A new chemical kinetic method of determining RON and MON values for single component and multicomponent mixtures of engine fuels
Westbrook CK, Sjoberg M, Cernansky NP |
| 63 - 74 |
Low-temperature multistage warm diffusion flames
Yehia OR, Reuter CB, Ju YG |
| 75 - 83 |
Autoignited lifted flames of dimethyl ether in heated coflow air
Al-Noman SM, Choi BC, Chung SH |
| 84 - 98 |
A computational analysis of methanol autoignition enhancement by dimethyl ether addition in a counterflow mixing layer
Song W, Tingas EA, Im HG |
| 99 - 104 |
Experimental and computational investigation of partially-premixed methoxymethane flames
Jiang YJ, Gehmlich R, Knoblinger T, Seshadri K |
| 105 - 116 |
Ember: An open-source, transient solver for 1D reacting flow using large kinetic models, applied to strained extinction
Long AE, Speth RL, Green WH |
| 117 - 127 |
Propagation and extinction of subatmospheric counterflow methane flames
Burrell RR, Lee DJ, Egolfopoulos FN |
| 128 - 139 |
Nonlinear development of hydrodynamically-unstable flames in three-dimensional laminar flows
Patyal A, Matalon M |
| 140 - 150 |
Role of induced axial acoustics in transverse acoustic flame response
Smith T, Emerson B, Proscia W, Lieuwen T |
| 151 - 162 |
A detonation paradox: Why inviscid detonation simulations predict the incorrect trend for the role of instability in gaseous cellular detonations?
Radulescu MI |
| 163 - 169 |
Deflagration-to-detonation transition in an unconfined space
Koksharov A, Bykov V, Kagan L, Sivashinsky G |
| 170 - 182 |
The impacts of three flamelet burning regimes in nonlinear combustion dynamics
Nguyen TM, Sirignano WA |
| 183 - 202 |
Direct numerical simulation of a temporally evolving air/n-dodecane jet at low-temperature diesel-relevant conditions
Borghesi G, Krisman A, Lu TF, Chen JH |
| 203 - 215 |
A systematic approach to high-fidelity modeling and efficient simulation of supercritical fluid mixing and combustion
Wang XJ, Huo HF, Unnikrishnan U, Yang V |
| 216 - 219 |
Unsteady droplet combustion with fuel thermal expansion
Nayagam V, Dietrich DL, Williams FA |
| 220 - 231 |
Ozone assisted cool flame combustion of sub-millimeter sized n-alkane droplets at atmospheric and higher pressure
Alam FE, Won SH, Dryer FL, Farouk TI |
| 232 - 252 |
Detailed SGS atomization model and its implementation to two-phase flow LES
Umemura A, Shinjo J |
| 253 - 266 |
Soot formation in counterflow non-premixed ethylene flames at elevated pressures
Xue X, Singh P, Sung CJ |
| 267 - 281 |
Sooting limits of non-premixed counterflow ethylene/oxygen/inert flames using LII: Effects of flow strain rate and pressure (up to 30 atm)
Sarnacki BG, Chelliah HK |
| 282 - 291 |
The effects of particle size and reducing-to-oxidizing environment on coal stream ignition
Adeosun A, Xiao ZH, Yang ZW, Yao Q, Axelbaum RL |
| 292 - 302 |
Combustion of Mg and composite Mg center dot S powders in different oxidizers
Liu XH, Schoenitz M, Dreizin EL |
| 303 - 310 |
Tuning the morphological, ignition and combustion properties of micron-Al/CuO thermites through different synthesis approaches
Deng SL, Jiang Y, Huang SD, Shi XJ, Zhao JH, Zheng XL |
| 311 - 321 |
Investigating oxidation growth routes in the flame synthesis of tungsten-oxide nanowires from tungsten substrates
Dong ZZ, D'Esposito C, Kear BH, Tse SD |
