Oscillation of Confined Jets in Continuous Casting Mold Flow

Mirko Javurek; Markus Brummayer; Raimund Wincor

doi:10.1002/pamm.200610244

Oscillation of Confined Jets in Continuous Casting Mold Flow

Mirko Javurek
, Markus Brummayer
, Raimund Wincor

Institute of Fluid Mechanics and Heat Transfer

Research output: Contribution to journal › Conference article › peer-review

Abstract

In continuous slab casting, the liquid steel is introduced into the mould via a submergered entry nozzle. This nozzle usually has two opposed orifices on its side walls, generating two diametrically opposed turbulent jets that are declined about 20° to the horizontal axis. These jets interact with the surrounding walls of the mould, which leads to an unstable flow situation and a self induced oscillation of the jets. Although both mould and nozzle geometry have two perpendicular symmetry planes, the oscillations are asymmetric. The fluid flow inside the mold is calculated with a 3D finite volume solver using turbulence models based on Reynolds-averaging. The massflow of the jets and the mould extensions are varied, and the numerical results are partially compared with PIV-measurements at a 1:1 scaled watermodel of the mould.

Original language	English
Pages (from-to)	527-528
Number of pages	2
Journal	PAMM - Proceedings in Applied Mathematics and Mechanics
Volume	6
DOIs	https://doi.org/10.1002/pamm.200610244
Publication status	Published - Oct 2006

Fields of science

211 Other Technical Sciences
211104 Metallurgy
103032 Fluid mechanics

Access to Document

10.1002/pamm.200610244Licence: Unspecified

Cite this

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title = "Oscillation of Confined Jets in Continuous Casting Mold Flow",

abstract = "In continuous slab casting, the liquid steel is introduced into the mould via a submergered entry nozzle. This nozzle usually has two opposed orifices on its side walls, generating two diametrically opposed turbulent jets that are declined about 20° to the horizontal axis. These jets interact with the surrounding walls of the mould, which leads to an unstable flow situation and a self induced oscillation of the jets. Although both mould and nozzle geometry have two perpendicular symmetry planes, the oscillations are asymmetric. The fluid flow inside the mold is calculated with a 3D finite volume solver using turbulence models based on Reynolds-averaging. The massflow of the jets and the mould extensions are varied, and the numerical results are partially compared with PIV-measurements at a 1:1 scaled watermodel of the mould.",

author = "Mirko Javurek and Markus Brummayer and Raimund Wincor",

year = "2006",

month = oct,

doi = "10.1002/pamm.200610244",

language = "English",

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pages = "527--528",

journal = "PAMM - Proceedings in Applied Mathematics and Mechanics",

issn = "1617-7061",

publisher = "John Wiley \& Sons",

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TY - JOUR

T1 - Oscillation of Confined Jets in Continuous Casting Mold Flow

AU - Javurek, Mirko

AU - Brummayer, Markus

AU - Wincor, Raimund

PY - 2006/10

Y1 - 2006/10

N2 - In continuous slab casting, the liquid steel is introduced into the mould via a submergered entry nozzle. This nozzle usually has two opposed orifices on its side walls, generating two diametrically opposed turbulent jets that are declined about 20° to the horizontal axis. These jets interact with the surrounding walls of the mould, which leads to an unstable flow situation and a self induced oscillation of the jets. Although both mould and nozzle geometry have two perpendicular symmetry planes, the oscillations are asymmetric. The fluid flow inside the mold is calculated with a 3D finite volume solver using turbulence models based on Reynolds-averaging. The massflow of the jets and the mould extensions are varied, and the numerical results are partially compared with PIV-measurements at a 1:1 scaled watermodel of the mould.

AB - In continuous slab casting, the liquid steel is introduced into the mould via a submergered entry nozzle. This nozzle usually has two opposed orifices on its side walls, generating two diametrically opposed turbulent jets that are declined about 20° to the horizontal axis. These jets interact with the surrounding walls of the mould, which leads to an unstable flow situation and a self induced oscillation of the jets. Although both mould and nozzle geometry have two perpendicular symmetry planes, the oscillations are asymmetric. The fluid flow inside the mold is calculated with a 3D finite volume solver using turbulence models based on Reynolds-averaging. The massflow of the jets and the mould extensions are varied, and the numerical results are partially compared with PIV-measurements at a 1:1 scaled watermodel of the mould.

U2 - 10.1002/pamm.200610244

DO - 10.1002/pamm.200610244

M3 - Conference article

SN - 1617-7061

VL - 6

SP - 527

EP - 528

JO - PAMM - Proceedings in Applied Mathematics and Mechanics

JF - PAMM - Proceedings in Applied Mathematics and Mechanics

ER -