| 1245 - 1262 |
HCCI engine modeling and experimental investigations - Part 2: The composition of a NO-PRF interaction mechanism and the influence of NO in EGR on auto-ignition
Machrafi H, Guibert P, Cavadias S |
| 1263 - 1277 |
Real-time evaluation of a detailed chemistry HCCI engine model using a tabulation technique
Mosbach S, Aldawood AM, Kraft M |
| 1278 - 1294 |
The effect of added Al2O3 on the propagation behavior of an Al/CuO nanoscale thermite
Malchi JY, Yetter RA, Foley TJ, Son SF |
| 1295 - 1316 |
Numerical simulation of gasoline stratified charge compression ignition using 3D-CFD coupled with detailed chemistry
Wang Z, Shuai SJ, Wang JX, Zhang F |
| 1317 - 1333 |
Explosion safety aspects of shock wave-induced condensation in fuel-rich gaseous mixtures
Fomin PA, Chen JR |
| 1334 - 1346 |
Effect of dilution, pressure, and velocity on smoke point in laminar jet flames
Yelverton TLB, Roberts WL |
| 1347 - 1369 |
Molecular Beam Mass Spectrometry analysis of PAH production pathways in C6H6/O-2/Ar and C6H6/C2H2/O-2/Ar flames
Detilleux V, Vandooren J |
| 1370 - 1394 |
Combustion characteristics and NOx emissions of two kinds of swirl burners in a 300-MWe wall-fired pulverized-coal utility boiler
Li ZQ, Jing JP, Chen ZC, Ren F, Xu B, Wei HD, Ge ZH |
| 1395 - 1420 |
A study of flame-vortex interactions in the presence of residual gases
Anders JW, Venugopal R, Magi V, Abraham J |
