| 305 - 316 |
Spray evolution of a coflowing round liquid jet in high-speed air flow
Johnston AP, Isaac KM |
| 317 - 333 |
Determination of in-focus criteria and depth of field in image processing of spray particles
Koh KU, Kim JYU, Lee SY |
| 335 - 349 |
On the influence of internal flow structure on performance of plain-orifice atomizers
Xu CH, Bunnell RA, Heister SD |
| 351 - 363 |
Molecular dynamics simulations of atomization and spray phenomena
Micci MM, Kaltz TL, Long LN |
| 365 - 396 |
Atomization, combustion, and control of charged hydrocarbon sprays
Shrimpton JS, Yule AJ |
| 397 - 414 |
Simulating droplet impact on a substrate of arbitrary shape
Pasandideh-Fard M, Bussmann M, Chandra S, Mostaghimi J |
| 415 - 431 |
Toward a control model for manipulating the breakup of a liquid jet
Strayer BA, Dunn-Rankin D |
| 433 - 452 |
Experimental study of the transition to the fully developed regime in a spray from a plain jet atomizer
Boedec T, Marie JL, Champoussin JC |
| 453 - 470 |
On the prediction and structures of wide-angle full-cone liquid sprays
Walmsley SJ, Watkins AP, Yule AJ |
| 471 - 490 |
Quantitative measurements of diesel fuel spray characteristics in the near-nozzle region using X-ray absorption
Yue Y, Powell CF, Poola R, Wang J, Schaller JK |
