| Название |
Changing of the constant component of phase voltage in ore-smelting furnaces for obtaining
of phosphorus and calcium carbide |
| Информация об авторе |
“LENNIIGIPROKhIM” LLC, Saint Petersburg, Russia:
A. A. Pedro, Professor, Head of Laboratory of High-Temperature Processes and Apparatuses, phone: +7 (812) 592-64-45
National Mineral Resources University, Saint Petersburg, Russia:
A. P. Suslov, Pro-rector |
| Реферат |
The nature of changing and existing of constant component (Ucc) in the phase voltage of ore smelting furnace with closed throat is considered by the example of phosphorous and carbide furnaces. The constant compound, explained by the contact of electrode with melt, is caused by the following factors:
— chemical interactions of this melt with carbonaceous electrode;
— decreasing of voltage drop on the furnace bath by the Gibbs thermodynamic potential value in the half-cycle, when electrode is anode;
— increasing of the voltage drop by the Gibbs thermodynamic potential value, when electrode is kathode.
The value of this Ucc depends on the melt composition, temperature on the electrode surface, contacting with this melt, and part of electrode current, passing through this contact. Direction of Ucc in measuring circuit lays from the melt (or coke, floating on the surface of this melt) to the electrode. That's why, there can be substantiated, that the melt is positively charged. The constant compound, defined by the valve action of electric arc of alternating current, depends on the following factors:
— material of electrodes, between which the arcing is observed (i. e. the operation of liberation of electrons from the cathode spots in the half-cycles, when they are situated on electrodes);
— temperature of cathode spots and gaseous medium with arcing.
Ucc depends on the component of melt, because one of electrodes is the melt or coke, treated by this melt and floating on its surface. Besides, Ucc depends on the part of electrode current, passing through the arc, i. e. it depends on the arc current. Direction of Ucc, defined by arc, depends on the size of electrone emission from electrodes. The electrode (melt or, directly, electrode), which emission is higher, is anode in the measuring circuit. Size and direction of total Ucc, explained by the simultaneous valve effects of electrode with melt and electric arc of alternating current, depend on the correlation of processes of chemical interconnection of electrode with components of reaction zone. This size and direction also depend on the degree of development and arcing conditions. |
| Библиографический список |
1. Sergeev P. V. Energeticheskie zakonomernosti rudnotermicheskikh pechey, elektroliza i elektricheskoy dugi (Energetic regularities of ore-smelting furnaces, electrolysis and electric arc). Alma-Ata : Publishing House of Academy of Sciences of Kazakhstan SSR, 1963. 248 p.
2. Pedro A. A., Arlievskiy M. P., Kurtenkov R. V. Elektrometallurgiya — Electrical Metallurgy. 2009. No. 4. pp. 29–33.
3. Sisoyan G. A. Elektricheskaya duga v elektricheskoy pechi (Electric arc in electric furnace). Moscow : Metallurgiya, 1974. 304 p.
4. Markov N. A., Barannik O. V. Ekspluatatsionnyy kontrol elektricheskikh parametrov dugovykh elektropechey (Exploitation control of electric parameters of arc furnaces). Moscow : Energiya, 1973. 104 p.
5. Svenchanskiy A. D., Zherdev I. T., Kruchinin A. M. et al. Elektricheskie promyshlennye pechi: dugovye pechi i ustanovki spetsialnogo nagreva : uchebnik dlya vuzov (Electric industrial furnaces: Arc furnaces and preliminary heat installations : tutorial for universities). Under the editorship of A. D. Svenchanskiy. Moscow : Energoizdat, 1981. 296 p.
6. Pedro A. A. Promyshlennaya energetika — Industrial energy. 1993. No. 5. pp. 28–31.
7. Sotnikov V. V., Pedro A. A., Nikitina L. N. Avtomatizirovannoe upravlenie rudno-termicheskoy pechyu proizvodstva normalnogo elektrokorunda (Automated management of ore-smelting furnace of manufacturing of aluminum-oxide abrasive). Saint Petersburg : Publishing House of Saint Petersburg State University, 2003. 148 p.
8. Sotnikov V. V., Pedro A. A., Avdienko I. V. Osnovy avtomatizirovannogo upravleniya rudnotermicheskoy pechyu pri proizvodstve karbida kaltsiya (Basis of automated control of oresmelting furnace during the manufacturing of calcium carbide). Saint Petersburg : Publishing House of Saint Petersburg State University, 2001. 145 p.
9. Beloglazov I. N., Beloglazov I. I., Pedro A. A. Zapiski Gornogo instituta — Proceedings of National Mineral Resources University. 2011. Vol. 192. pp. 172–178.
10. Pedro A. A., Arlievskiy M. P., Kurtenkov R. V. Elektrometallurgiya — Electrical Metallurgy. 2011. No. 7. pp. 37–39. |
