Jet and vortex ring-like structures in internal combustion engines: stability analysis and analytical solutions

Sergei Sazhin; Sergey Boronin; Steven Begg; Cyril Crua; Jonathan Healey; N.A. Lebedeva; A.N. Osiptsov; F. Kaplanski; Morgan Heikal

doi:10.1016/j.piutam.2013.04.025

Jet and vortex ring-like structures in internal combustion engines: stability analysis and analytical solutions

Sergei Sazhin, Sergey Boronin, Steven Begg, Cyril Crua, Jonathan Healey, N.A. Lebedeva, A.N. Osiptsov, F. Kaplanski, Morgan Heikal

Research output: Contribution to journal › Article › peer-review

Abstract

Recently developed models, describing the disintegration of liquid jets and the dynamics of vortex ring-like structures at Diesel and gasoline engine-like conditions, are reviewed. The results of comparative analysis of modal and non-modal hydrodynamic instabilities of round viscous fluid jets are presented. Analytical formulae for vortex ring translational velocities, predicted by vortex ring models, are compared with the results of numerical solutions to the underlying equations and experimental data. A new approach to numerical simulation of two-phase two-dimensional flows, based on a combination of the full Lagrangian method for the dispersed phase and the vortex blob method for the carrier phase, is discussed.

Original language	English
Pages (from-to)	196-204
Number of pages	9
Journal	Procedia IUTAM
Volume	8
DOIs	https://doi.org/10.1016/j.piutam.2013.04.025
Publication status	Published - 20 May 2013

Bibliographical note

Keywords

jets
vortex rings
stability analysis
internal combustion engines

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10.1016/j.piutam.2013.04.025Licence: Unspecified

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title = "Jet and vortex ring-like structures in internal combustion engines: stability analysis and analytical solutions",

abstract = "Recently developed models, describing the disintegration of liquid jets and the dynamics of vortex ring-like structures at Diesel and gasoline engine-like conditions, are reviewed. The results of comparative analysis of modal and non-modal hydrodynamic instabilities of round viscous fluid jets are presented. Analytical formulae for vortex ring translational velocities, predicted by vortex ring models, are compared with the results of numerical solutions to the underlying equations and experimental data. A new approach to numerical simulation of two-phase two-dimensional flows, based on a combination of the full Lagrangian method for the dispersed phase and the vortex blob method for the carrier phase, is discussed.",

keywords = "jets, vortex rings, stability analysis, internal combustion engines",

author = "Sergei Sazhin and Sergey Boronin and Steven Begg and Cyril Crua and Jonathan Healey and N.A. Lebedeva and A.N. Osiptsov and F. Kaplanski and Morgan Heikal",

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T1 - Jet and vortex ring-like structures in internal combustion engines: stability analysis and analytical solutions

AU - Sazhin, Sergei

AU - Boronin, Sergey

AU - Begg, Steven

AU - Crua, Cyril

AU - Healey, Jonathan

AU - Lebedeva, N.A.

AU - Osiptsov, A.N.

AU - Kaplanski, F.

AU - Heikal, Morgan

PY - 2013/5/20

Y1 - 2013/5/20

N2 - Recently developed models, describing the disintegration of liquid jets and the dynamics of vortex ring-like structures at Diesel and gasoline engine-like conditions, are reviewed. The results of comparative analysis of modal and non-modal hydrodynamic instabilities of round viscous fluid jets are presented. Analytical formulae for vortex ring translational velocities, predicted by vortex ring models, are compared with the results of numerical solutions to the underlying equations and experimental data. A new approach to numerical simulation of two-phase two-dimensional flows, based on a combination of the full Lagrangian method for the dispersed phase and the vortex blob method for the carrier phase, is discussed.

AB - Recently developed models, describing the disintegration of liquid jets and the dynamics of vortex ring-like structures at Diesel and gasoline engine-like conditions, are reviewed. The results of comparative analysis of modal and non-modal hydrodynamic instabilities of round viscous fluid jets are presented. Analytical formulae for vortex ring translational velocities, predicted by vortex ring models, are compared with the results of numerical solutions to the underlying equations and experimental data. A new approach to numerical simulation of two-phase two-dimensional flows, based on a combination of the full Lagrangian method for the dispersed phase and the vortex blob method for the carrier phase, is discussed.

KW - jets

KW - vortex rings

KW - stability analysis

KW - internal combustion engines

U2 - 10.1016/j.piutam.2013.04.025

DO - 10.1016/j.piutam.2013.04.025

M3 - Article

SN - 2210-9838

VL - 8

SP - 196

EP - 204

JO - Procedia IUTAM

JF - Procedia IUTAM

ER -

Jet and vortex ring-like structures in internal combustion engines: stability analysis and analytical solutions

Abstract

Bibliographical note

Keywords

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