The Multicell Volume of Fluid (MC-VOF) Method for the Free Surface Simulation of MFD Flows : Part I : Mathematical Model
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概要
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This paper is the first part of a two-part paper which presents a simulation algorithm of unsteady, electromagnetically driven molten metal flows with free surfaces. At the free boundary, the variable space-distribution of the normal Lorentz forces is taken into account by proper computation of the electromagnetic field and pressure. For each calculation time step, a transport equation of the melts volume is solved for multicell blocks and subsequently, the free surface is reconstructed by an inward gathering of the melt volume. Therefore, the free surface can be more accurately simulated with the following improvements:(1) Consideration of the normal electromagnetic force densities exerted on the melt surface.(2) Strictly volume conserving displacement of the free surface.(3) Absence of numerically created holes in the melt or of separated fluid droplets, respectively.Comparisons between computational and experimental results to verify the validity of the mathematical model will be presented in the second part of the paper.
- 社団法人 日本鉄鋼協会の論文
- 2011-05-15
著者
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Pesteanu Ovidiu
Institute For Metallurgy Technical University Clausthal
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Pesteanu Ovidiu
Institute Of Electrotechnology Leibniz University Of Hanover
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BAAKE Egbert
Institute of Electrotechnology, Leibniz University of Hanover
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Baake Egbert
Institute Of Electrotechnology Leibniz University Of Hanover
関連論文
- Contribution to the Large Eddy Simulation of Flows in Electromagnetic Stirrers for Continuous Casting
- The Multicell Volume of Fluid (MC-VOF) Method for the Free Surface Simulation of MFD Flows : Part I : Mathematical Model
- The Multicell Volume of Fluid (MC-VOF) Method for the Free Surface Simulation of MFD Flows : Part II : Experimental Verifications and Results
- Short Contribution to the Study of the Washing Effect in Electromagnetic Stirrers for Continuous Casting
- New Method and Devices for Electromagnetic Drip- and Leakage-Free Levitation Melting