Numerical and experimental investigation of the skull melting process for continuous pouring of oxides

Publikation: Beitrag in FachzeitschriftKonferenzaufsatz in FachzeitschriftForschungPeer-Review

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  • St. Petersburg State Electrotechnical University
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OriginalspracheEnglisch
Seiten (von - bis)299-306
Seitenumfang8
FachzeitschriftMagnetohydrodynamics
Jahrgang56
Ausgabenummer2-3
PublikationsstatusVeröffentlicht - 2020
Veranstaltung11th PAMIR International Conference on Fundamental and Applied MHD - Reims, Frankreich
Dauer: 1 Juli 20195 Juli 2019
Konferenznummer: 11

Abstract

The technology of induction melting in the cold crucible is suitable for high temperature synthesis of oxide materials. This paper describes a new technology for continuous melting and pouring of oxide melts. A new type of the cold crucible with two zones is used for this application. In the first zone, the charged oxide is melted and transferred via a barrier to the second zone, where the oxide is superheated before pouring. Numerical simulation is used to investigate the heat and mass transfer duringthe melting and pouring processes in the cold crucible furnace. Numerical results are compared with experimental data of melting and pouring experiments in an industrial prototype skull melting installation. The paper presents a description of the new cold crucible setup, the results of numerical simulations for low and high frequency and the comparison with experimental data.

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Numerical and experimental investigation of the skull melting process for continuous pouring of oxides. / Nacke, B.; Fehling, T.; Pozniak, I.
in: Magnetohydrodynamics, Jahrgang 56, Nr. 2-3, 2020, S. 299-306.

Publikation: Beitrag in FachzeitschriftKonferenzaufsatz in FachzeitschriftForschungPeer-Review

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AU - Fehling, T.

AU - Pozniak, I.

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AB - The technology of induction melting in the cold crucible is suitable for high temperature synthesis of oxide materials. This paper describes a new technology for continuous melting and pouring of oxide melts. A new type of the cold crucible with two zones is used for this application. In the first zone, the charged oxide is melted and transferred via a barrier to the second zone, where the oxide is superheated before pouring. Numerical simulation is used to investigate the heat and mass transfer duringthe melting and pouring processes in the cold crucible furnace. Numerical results are compared with experimental data of melting and pouring experiments in an industrial prototype skull melting installation. The paper presents a description of the new cold crucible setup, the results of numerical simulations for low and high frequency and the comparison with experimental data.

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