Numerical studies of the melting process in the induction furnace with cold crucible

A. Umbrasko; E. Baake; B. Nacke; A. Jakovics

doi:10.1108/03321640810847643

Numerical studies of the melting process in the induction furnace with cold crucible

A. Umbrasko^*
, E. Baake
, B. Nacke
, A. Jakovics

^*Corresponding author for this work

Institute of Numerical Modeling

Leibniz University Hannover

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

26 Citations (Scopus)

Abstract

Purpose - Aims to present recent activities in numerical modeling of cold crucible melting process. Design/methodology/approach - 3D numerical analysis was used for electromagnetic problem and 3D large eddy simulation (LES) method was applied for fluid flow modeling. Findings - The comparative modeling shows, that higher H/D ratio of the melt is more efficient when total power consumption is considered, but this advantage is held back by higher heat losses through the crucible walls. Also, calculations reveal that lower frequencies, which are energetically less effective, provide better mixing of the melt. Originality/value - 3D electromagnetic model, which allows to take into account non-symmetrical distribution of Joule heat sources, together with transient LES fluid flow simulation gives the opportunity of accurate prediction of temperature distribution in the melt.

Original language	English
Pages (from-to)	359-368
Number of pages	10
Journal	COMPEL - The International Journal for Computation and Mathematics in Electrical and Electronic Engineering
Volume	27
Issue number	2
DOIs	https://doi.org/10.1108/03321640810847643
Publication status	Published - 2008

Keywords

Furnaces
Melting
Modelling
Numerical analysis
Simulation

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10.1108/03321640810847643

Cite this

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abstract = "Purpose - Aims to present recent activities in numerical modeling of cold crucible melting process. Design/methodology/approach - 3D numerical analysis was used for electromagnetic problem and 3D large eddy simulation (LES) method was applied for fluid flow modeling. Findings - The comparative modeling shows, that higher H/D ratio of the melt is more efficient when total power consumption is considered, but this advantage is held back by higher heat losses through the crucible walls. Also, calculations reveal that lower frequencies, which are energetically less effective, provide better mixing of the melt. Originality/value - 3D electromagnetic model, which allows to take into account non-symmetrical distribution of Joule heat sources, together with transient LES fluid flow simulation gives the opportunity of accurate prediction of temperature distribution in the melt.",

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T1 - Numerical studies of the melting process in the induction furnace with cold crucible

AU - Umbrasko, A.

AU - Baake, E.

AU - Nacke, B.

AU - Jakovics, A.

PY - 2008

Y1 - 2008

N2 - Purpose - Aims to present recent activities in numerical modeling of cold crucible melting process. Design/methodology/approach - 3D numerical analysis was used for electromagnetic problem and 3D large eddy simulation (LES) method was applied for fluid flow modeling. Findings - The comparative modeling shows, that higher H/D ratio of the melt is more efficient when total power consumption is considered, but this advantage is held back by higher heat losses through the crucible walls. Also, calculations reveal that lower frequencies, which are energetically less effective, provide better mixing of the melt. Originality/value - 3D electromagnetic model, which allows to take into account non-symmetrical distribution of Joule heat sources, together with transient LES fluid flow simulation gives the opportunity of accurate prediction of temperature distribution in the melt.

AB - Purpose - Aims to present recent activities in numerical modeling of cold crucible melting process. Design/methodology/approach - 3D numerical analysis was used for electromagnetic problem and 3D large eddy simulation (LES) method was applied for fluid flow modeling. Findings - The comparative modeling shows, that higher H/D ratio of the melt is more efficient when total power consumption is considered, but this advantage is held back by higher heat losses through the crucible walls. Also, calculations reveal that lower frequencies, which are energetically less effective, provide better mixing of the melt. Originality/value - 3D electromagnetic model, which allows to take into account non-symmetrical distribution of Joule heat sources, together with transient LES fluid flow simulation gives the opportunity of accurate prediction of temperature distribution in the melt.

KW - Furnaces

KW - Melting

KW - Modelling

KW - Numerical analysis

KW - Simulation

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SN - 0332-1649

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JO - COMPEL - The International Journal for Computation and Mathematics in Electrical and Electronic Engineering

JF - COMPEL - The International Journal for Computation and Mathematics in Electrical and Electronic Engineering

IS - 2

ER -

Numerical studies of the melting process in the induction furnace with cold crucible

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Keywords

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