Suscripción a Biblioteca: Guest
Portal Digitalde Biblioteca Digital eLibros Revistas Referencias y Libros de Ponencias Colecciones
Atomization and Sprays
Factor de Impacto: 1.262 Factor de Impacto de 5 años: 1.518 SJR: 0.814 SNIP: 1.18 CiteScore™: 1.6

ISSN Imprimir: 1044-5110
ISSN En Línea: 1936-2684

Volumes:
Volumen 29, 2019 Volumen 28, 2018 Volumen 27, 2017 Volumen 26, 2016 Volumen 25, 2015 Volumen 24, 2014 Volumen 23, 2013 Volumen 22, 2012 Volumen 21, 2011 Volumen 20, 2010 Volumen 19, 2009 Volumen 18, 2008 Volumen 17, 2007 Volumen 16, 2006 Volumen 15, 2005 Volumen 14, 2004 Volumen 13, 2003 Volumen 12, 2002 Volumen 11, 2001 Volumen 10, 2000 Volumen 9, 1999 Volumen 8, 1998 Volumen 7, 1997 Volumen 6, 1996 Volumen 5, 1995 Volumen 4, 1994 Volumen 3, 1993 Volumen 2, 1992 Volumen 1, 1991

Atomization and Sprays

DOI: 10.1615/AtomizSpr.v19.i6.20
pages 501-528

LIQUID JET BREAKUP IN QUIESCENT ATMOSPHERE: A REVIEW

Madjid Birouk
Department of Mechanical and Manufacturing Engineering, University of Manitoba, Winnipeg, MB, R3T 5V6 Canada
Nebojsa Lekic
Department of Mechanical and Manufacturing Engineering, University of Manitoba, Winnipeg, MB,R3T5V6, Canada

SINOPSIS

Breakup of liquid jets issuing from converging (cone-up type) nozzles in a quiescent atmosphere is reviewed in the present paper. This review reveals that, in fact, very little is known about the influence of various factors on the disintegration of the jet. General disregard of nozzle geometry and internal flow in the classic literature are the main reasons for the presence of confusion, and the lack of a coherent body of information on the subject. Characteristics of jet breakup depend on a variety of factors such as turbulence, velocity profiles, nozzle geometry, and the physical states of the liquid and gas. Disintegration mechanisms are characterized by dominance of one or more of the aforementioned factors. While the general process of jet breakup, turbulence, and ambient effects are fairly well comprehended, the effects (and the interplay) of various other parameters are poorly understood. In particular, the recent literature suggests that nozzle geometry, internal flow, and cavitation play a profound role in the breakup.


Articles with similar content:

A BOUNDARY-ELEMENT METHOD FOR ATOMIZATION OF A FINITE LIQUID JET
Atomization and Sprays, Vol.5, 1995, issue 6
Stephen D. Heister, C. A. Spangler, J. H. Hilbing
INTERNAL AND EXTERNAL FLOW CHARACTERISTICS OF SWIRL ATOMIZERS: A REVIEW
Atomization and Sprays, Vol.25, 2015, issue 2
A. Manivannan, N. Shenbaga Vinayaga Moorthi, G. Arun Vijay
NUMERICAL INVESTIGATION ON EFFECTS OF ELLIPTICAL DIESEL NOZZLE ON PRIMARY SPRAY CHARACTERISTICS BY LARGE EDDY SIMULATION (LES)
Atomization and Sprays, Vol.28, 2018, issue 8
Bifeng Yin, Bin Xu, Shenghao Yu, Ze Ye, Huaping Xu, Hekun Jia, Weixin Deng
CHARACTERISTICS OF HOLLOW CONE SPRAYS IN CROSSFLOW
Atomization and Sprays, Vol.21, 2011, issue 4
Mario F. Trujillo, Jian Gao, Suraj Deshpande
FIFTY YEARS OF GAS TURBINE FUEL INJECTION
Atomization and Sprays, Vol.10, 2000, issue 3-5
Arthur H. Lefebvre