ЕКСПЕРИМЕНТАЛЬНЕ ДОСЛІДЖЕННЯ ОБЕРТАЛЬНОГО РУХУ РІДКОГО МЕТАЛУ В ІНДУКЦІЙНІЙ КАНАЛЬНІЙ ПЕЧІ

Yu.M. Goryslavets; O.I. Glukhenkyi

No. 4 (2011), Electrotechnological Complexes and Systems

No. 4 (2011)

Electrotechnological Complexes and Systems

EXPERIMENTAL STUDY OF ROTATIONAL MOTION OF LIQUID METAL IN INDUCTION CHANNEL FURNACE

Published 2011-06-24

Yu.M. Goryslavets ⁺⁻
O.I. Glukhenkyi⁺⁻

Yu.M. Goryslavets

Institute of Electrodynamics of National Academy of Sciences of Ukraine, Peremohy, 56, Kyiv-57, 03680, Ukraine

O.I. Glukhenkyi

Institute of Electrodynamics of National Academy of Sciences of Ukraine, Peremohy, 56, Kyiv-57, 03680, Ukraine

ARTICLE_10_PDF (Українська)

Keywords

induction channel furnace
rotational motion of liquid metal
physical modelling
velocity of metal
heat and mass-transfer індукційна канальна піч
обертальний рух рідкого металу
фізичне моделювання
швидкість металу
тепло- масообмін

How to Cite

[1]

Гориславець , Ю. and Глухенький , О. 2011. EXPERIMENTAL STUDY OF ROTATIONAL MOTION OF LIQUID METAL IN INDUCTION CHANNEL FURNACE. Tekhnichna Elektrodynamika. 4 (Jun. 2011), 064.

Abstract

On the physical model of induction channel furnace the structure of rotational motion of liquid metal in cylindrical channels is studied. Distribution of metal velocity on radius and length of furnace channel is received. The possibility of intensification of heat and mass transfer in induction furnace with rotational motion of metal by increasing the vortex motion of liquid metal in the longitudinal sections of cylindrical channels and emergence of transit flow in channel part of furnace is experimentally rotined. References 7, figures 5.

ARTICLE_10_PDF (Українська)

References

Gorislavets Yu.M. Electromagnetic systems of rotational motion of liquid metal for induction channel furnace // Tekhnichna elektrodynamika. - 1998. - № 4. - P. 12-14. (Rus.)

Goryslavets Yu.M. Computer simulation of induction channel furnace with rotational motion of liquid metal // Tekhnichna elektrodynamika. Tematychnyi vypusk "Problemy suchasnoi elektrotekhniky”. - 2008. - Vol. 6. - P. 92- 95. (Ukr.)

Gorislavets Yu.M., Glukhenkii A.I. Determination of velocity of rotational motion of liquid metal in the device of continuous refining // Tekhnichna elektrodynamika. - 2008. - № 6. - P. 60-64. (Rus.)

Gorislavets Yu.M., Glukhenkii A.I. Electrodynamics parameters of the system of rotational motion of liquid metal of induction channel furnace // Tekhnichna elektrodynamika. - 2009. - № 3. - P. 35-40. (Rus.)

Zolotukhin V.A., Temerov А.А., Vidin Yu.V., Evtikhov Zh.L. About some factors, influencing on character of overgrowing by oxides of channels of induction melting furnace // Promyshlennaia energetika. -1981.-№10. - P. 12-14. (Rus.)

Kolesnichenko A.F., Gorislavets Yu.M., Bundia A.P., Borisov B.P., Graudul V.N. Transfer enthalpies and substance at heterogeneous MHD flows in channels of induction melting furnaces // Magnitnaia gidrodinamika. - 1979. - №1. - P. 111-116. (Rus.)

Ricou R., Vives Ch. Local velocity and mass transfer measurements in molten metals using and incorporated magnet probe // International Journal of Heat and Mass Transfer. - 1982. - Vol. 25. - № 10. - P. 1579-1588.