| 1 - 15 |
Large eddy simulation of bluff body flames close to blow-off using an Eulerian stochastic field method
Hodzic E, Jangi M, Szasz RZ, Bai XS |
| 16 - 21 |
Electromagnetic enhanced ignition
Duque ALH, Perry WL |
| 22 - 38 |
Advances in modelling in CFD simulations of turbulent gaseous pool fires
Maragkos G, Beji T, Merci B |
| 39 - 53 |
Effects of hydrodynamics and mixing on soot formation and growth in laminar coflow diffusion flames at elevated pressures
Abdelgadir A, Rakha IA, Steinmetz SA, Attili A, Bisetti F, Roberts WL |
| 54 - 70 |
Pressure effects on real-gas laminar counterflow
Juanos AJ, Sirignano WA |
| 71 - 81 |
Exploring the high-temperature kinetics of diethyl carbonate (DEC) under pyrolysis and flame conditions
Sun WY, Huang C, Tao T, Zhang F, Li W, Hansen N, Yang B |
| 82 - 99 |
Fuel effects on lean blow-out in a realistic gas turbine combustor
Esclapez L, Ma PC, Mayhew E, Xu R, Stouffer S, Lee T, Wang H, Ihme M |
| 100 - 109 |
Pressure-dependent kinetics on the C4H7 potential energy surface and its effect on combustion model predictions
Huang C, Yang B, Zhang F |
| 110 - 122 |
Flame chemiluminescence from CO2- and N-2-diluted laminar CH4/air premixed flames
Guiberti TF, Durox D, Schuller T |
| 123 - 135 |
An investigation of coherent structures in laminar boundary layer flames
Miller CH, Tang W, Finney MA, McAllister SS, Forthofer JM, Gollner MJ |
| 136 - 148 |
Investigation of mixing model performance in transported PDF calculations of turbulent lean premixed jet flames through Lagrangian statistics and sensitivity analysis
Zhou H, Li S, Ren ZY, Rowinski DH |
| 149 - 156 |
Autoignition and combustion characteristics of sodium borohydride-based non-toxic hypergolic fuel droplet at elevated temperatures
Kang H, Won J, Baek SW, Kwon S |
| 157 - 163 |
Ignition characterization of F-76 and algae-derived HRD-76 at elevated temperatures and pressures
Valco DJ, Tess MJ, Temme JE, Kurman MS, Oldani A, Kweon CBM, Oehlschlaeger MA, Lee T |
| 164 - 171 |
Investigating aging effects for porous silicon energetic materials
Sinha S, Piekiel NW, Smith GL, Morris CJ |
| 172 - 187 |
Comparative study between Conditional Moment Closure (CMC) and Conditional Source-term Estimation (CSE) applied to piloted jet flames
Labahn JW, Stankovic I, Devaud CB, Merci B |
| 188 - 197 |
Illuminating the earliest stages of the soot formation by photoemission and Raman spectroscopy
Commodo M, D'Anna A, De Falco G, Larciprete R, Minutolo P |
| 198 - 213 |
An extensive experimental and modeling study of 1-butene oxidation
Li Y, Zhou CW, Curran HJ |
| 214 - 224 |
2D-imaging of sampling-probe perturbations in laminar premixed flames using Kr X-ray fluorescence
Hansen N, Tranter RS, Moshammer K, Randazzo JB, Lockhart JPA, Fugazzi PG, Tao T, Kastengren AL |
| 225 - 238 |
Combustion plasma electrical conductivity model development for oxy-fuel MHD applications
Bedick CR, Kolczynski L, Woodside CR |
| 239 - 250 |
Dual-pump vibrational CARS measurements of temperature and species concentrations in turbulent premixed flames with CO2 addition
Han D, Satija A, Kim J, Weng YF, Gore JP, Lucht RP |
| 251 - 269 |
Comparative experimental and modeling study of the low- to moderate-temperature oxidation chemistry of 2,5-dimethylfuran, 2-methylfuran, and furan
Tran LS, Wang Z, Carstensen HH, Carstensen HH, Battin-Leclerc F, Kohse-Hoinghaus K |
| 270 - 282 |
Experimental investigation of acoustic forcing on temperature, soot volume fraction and primary particle diameter in non-premixed laminar flames
Foo KK, Sun ZW, Medwell PR, Alwahabi ZT, Dally BB, Nathan GJ |
| 283 - 299 |
Revisiting 1-hexene low-temperature oxidation
Meng XZ, Rodriguez A, Herbinet O, Wang TY, Battin-Leclerc F |
| 300 - 314 |
Three-dimensional reacting shock-bubble interaction
Diegelmann F, Hickel S, Adams NA |
| 315 - 328 |
Probing gas-to-particle transition in a moderately sooting atmospheric pressure ethylene/air laminar premixed flame. Part I: gas phase and soot ensemble characterization
Carbone F, Gleason K, Gomez A |
| 329 - 341 |
Probing gas-to-particle transition in a moderately sooting atmospheric pressure ethylene/air laminar premixed flame. Part II: Molecular clusters and nascent soot particle size distributions
Carbone F, Moslih S, Gomez A |
| 342 - 353 |
A multiple mapping conditioning mixing model with a mixture-fraction like reference variable. Part 1: Model derivation and ideal flow test cases
Varna A, Cleary MJ, Hawkes ER |
| 354 - 364 |
A multiple mapping conditioning mixing model with a mixture-fraction like reference variable. Part 2: RANS implementation and validation against a turbulent jet flame
Varna A, Cleary MJ, Hawkes ER |
