| 1 - 10 |
Combustion of aluminum nanoparticles and exfoliated 2D molybdenum trioxide composites
Zakiyyan N, Wang AQ, Thiruvengadathan R, Staley C, Mathai J, Gangopadhyay K, Maschmann MR, Gangopadhyay S |
| 11 - 21 |
New insights into the shock tube ignition of H-2/O-2 at low to moderate temperatures using high-speed end-wall imaging
Ninnemann E, Koroglu B, Pryor O, Barak S, Nash L, Loparo Z, Sosa J, Ahmed K, Vasu S |
| 22 - 29 |
Structure and extinction of spherical burner-stabilized diffusion flames that are attached to the burner surface
Rodenhurst MK, Chao BH, Sunderland PB, Axelbaum RL |
| 30 - 41 |
Principal component analysis coupled with nonlinear regression for chemistry reduction
Malik MR, Isaac BJ, Coussement A, Smith PJ, Parente A |
| 42 - 51 |
The effect of exit Reynolds number on soot volume fraction in turbulent non-premixed jet flames
Mahmoud SM, Nathan GJ, Alwahabi ZT, Sun ZW, Medwell PR, Dally BB |
| 52 - 66 |
Direct numerical simulation of turbulent channel-flow catalytic combustion: Effects of Reynolds number and catalytic reactivity
Arani BO, Frouzakis CE, Mantzaras J, Lucci F, Boulouchos K |
| 67 - 76 |
Hydrogen-enhanced combustion of a composite propellant with ZrH2 as the fuel
Yang YJ, Zhao FQ, Xu HX, Pei Q, Jiang HY, Yi JH, Xuan CL, Chen SP |
| 77 - 86 |
Stabilized microparticle aggregates of oxygen-containing nanoparticles in kerosene for enhanced droplet combustion
Guerieri PM, Jacob RJ, DeLisio JB, Rehwoldt MC, Zachariah MR |
| 87 - 95 |
Spark ignition probability and minimum ignition energy transition of the lean iso-octane/air mixture in premixed turbulent combustion
Jiang LJ, Shy S, Nguyen MT, Huang SY, Yu DW |
| 96 - 104 |
Highly stable functionalized aluminum nanoparticles for magneto-energetic composite fabrication
Tran VT, Kim JH, Jeong KJ, Kwon J, Kim SH, Lee J |
| 105 - 121 |
A systematic method to estimate and validate enthalpies of formation using error-cancelling balanced reactions
Buerger P, Akroyd J, Mosbach S, Kraft M |
| 122 - 128 |
Order reduction in models of spray ignition and combustion
Sazhin SS, Shchepakina E, Sobolev V |
| 129 - 136 |
Numerical study on the transient evolution of a premixed cool flame
Zhang WK, Faqih M, Gou XL, Chen Z |
| 137 - 146 |
Model form uncertainty quantification in turbulent combustion simulations: Peer models
Mueller ME, Raman V |
| 147 - 164 |
Reaction mechanism, rate constants, and product yields for the oxidation of Cyclopentadienyl and embedded five-member ring, radicals with hydroxyl
Galimova GR, Azyazov VN, Mebel AM |
| 165 - 184 |
The effect of the flame phase on thermoacoustic instabilities
Ghirardo G, Juniper MP, Bothien MR |
| 185 - 198 |
Experimental and numerical study of the laminar burning velocity of CH4-NH3-air premixed flames
Okafor EC, Naito Y, Colson S, Ichikawa A, Kudo T, Hayakawa A, Kobayashi H |
| 199 - 216 |
n-Heptane cool flame chemistry: Unraveling intermediate species measured in a stirred reactor and motored engine
Wang ZD, Chen BJ, Mosharnmer K, Popolan-Vaida DM, Sioud S, Shankar VSB, Vuilleumier D, Tao T, Ruwe L, Brauer E, Hansen N, Dagaut P, Kohse-Hoinghaus K, Raji MA, Sarathy SM |
| 217 - 229 |
Effects of oxygen-enrichment and fuel unsaturation on soot and NOx emissions in ethylene, propane, and propene flames
Kalvakala KC, Katta VR, Aggarwal SK |
| 230 - 238 |
Propagation speeds for interacting triple flames
Grib SW, Renfro MW |
| 239 - 246 |
Soot formation characteristics of n-heptane/toluene mixtures in laminar premixed burner-stabilized stagnation flames
Tang QX, Ge BQ, Ni Q, Nie BS, You XQ |
| 247 - 256 |
Pressure dependent kinetic analysis of pathways to naphthalene from cyclopentadienyl recombination
Long AE, Merchant SS, Vandeputte AG, Carstensen HH, Vervust AJ, Marin GB, Van Geem KM, Green WH |
