Cavitation and Hydraulic Flip in the Outward-Opening GDi ... - Delphi
Cavitation and Hydraulic Flip in the Outward-Opening GDi ... - Delphi
Cavitation and Hydraulic Flip in the Outward-Opening GDi ... - Delphi
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5. Befrui, B., Corb<strong>in</strong>elli, G., Robart, D., Reckers, W.,<br />
Weller, H., LES Simulation of <strong>the</strong> Internal Flow <strong>and</strong><br />
Near-Field Spray Structure of an <strong>Outward</strong>-Open<strong>in</strong>g<br />
<strong>GDi</strong> Injector <strong>and</strong> Comparison with Imag<strong>in</strong>g Data,<br />
presented at SAE World Congress, 2008-01-0137,<br />
2008.<br />
6. Reckers, W., Befrui, B., Corb<strong>in</strong>elli, G., Investigations<br />
of High Pressure <strong>GDi</strong> Conical Spray Atomization for<br />
Spray Guided Combustion Systems, presented at<br />
AVL 8th International Symposium on Combustion<br />
Diagnostics, June 2008.<br />
7. Soteriou, C, Andrews, R., Smith, M., Direct Injection<br />
Diesel Sprays <strong>and</strong> <strong>the</strong> Effect of <strong>Cavitation</strong> <strong>and</strong><br />
<strong>Hydraulic</strong> <strong>Flip</strong> on Atomization, presented at SAE<br />
World Congress, 950080, 1995.<br />
8. Tamaki, N., Shimizu, M., Nishida, K., <strong>and</strong> Hiroyasu,<br />
H. (1998). Effects of cavitation <strong>and</strong> <strong>in</strong>ternal flow on<br />
atomization of a liquid jet," Atom. <strong>and</strong> Sprays, 8 (2)<br />
9. Hiroyasu, H. (2000). Spray breakup mechanism from<br />
<strong>the</strong> hole-type nozzle <strong>and</strong> its applications, Atom. <strong>and</strong><br />
Sprays, 10 (3-5)<br />
10. Tamaki, N., Shimizu, M., <strong>and</strong> Hiroyasu, H. (2001).<br />
Enhancement of <strong>the</strong> atomization of a liquid jet by<br />
cavitation <strong>in</strong> a nozzle hole, Atom. <strong>and</strong> Sprays, 11 (2)<br />
11. Ganippa, L. C., Bark, G., Andersson, G. <strong>and</strong><br />
Chomiak, J. (2004). <strong>Cavitation</strong>: a contributory factor<br />
<strong>in</strong> <strong>the</strong> transition from symmetric to asymmetric jets <strong>in</strong><br />
cross-flow nozzles, Experiments <strong>in</strong> Fluids, 36.<br />
12. Tafreshi, H. <strong>and</strong> Pourdeyhimi, B. (2004). Simulat<strong>in</strong>g<br />
<strong>Cavitation</strong> <strong>and</strong> <strong>Hydraulic</strong> <strong>Flip</strong> Inside Hydroentangl<strong>in</strong>g<br />
Nozzles, Textile Research Journal, 74 (4)<br />
13. Sou, A., Hosokawa, S., Tomiyama, A. (2007).<br />
Effects of <strong>Cavitation</strong> <strong>in</strong> a Nozzle on Liquid Jet<br />
Atomization, Intl. J. Heat Mass Trans., 50 (17 – 18)<br />
14. AVL-FIRE User Manual, V 8.4.2., AVL-List GmbH,<br />
2006.<br />
15. Meister, G. F., Alajbegovic, A., Lai, M.-C., Yoo, J.-<br />
H., Transient Simulation of DGI Eng<strong>in</strong>e Injector with<br />
Needle Movement, presented at SAE World<br />
Congress, 2002-01-2663. 2002.