Submit an Article
Become a reviewer
Vol 192
Pages:
157
Download volume:

Control system of ore-smelting furnace using harmonic components of electrodes current

Authors:
V. V. Vasilev
About authors
  • Saint Petersburg State Mining University
Date submitted:
2010-10-21
Date accepted:
2010-12-01
Date published:
2011-04-01

Abstract

The features of electric melting in ore-smelting furnace are considered, and the correlation of electrical and technological parameters and their influence on the character of the processes in ore-smelting furnace. The method to determine the current values of electrotechnological characteristics based on the harmonic analysis of electrodes current. The structure and algorithm of control system for ore-smelting furnace is demonstrated.

Go to volume 192

References

  1. Вапник М.А. Автоматическое управление рудно-термическими печами / М.А.Вапник, Э.Э.Семенов; НИИТЭХИМ. М., 1977.
  2. Влияние гармонической составляющей с частотой 100 Гц в токе электрода на работу рудно-термической печи / А.А.Педро, И.Н.Белоглазов, В.В.Васильев и др. // Металлург. 2009. № 5.
  3. Сисоян Г.А. Электрическая дуга в электрической печи. М.: Металлургия, 1974.
  4. Электрохимические процессы химической технологии: Учеб. пособие для вузов / Под. ред. В.А.Ершова. Л.: Химия, 1984.

Similar articles

Algorithms of fuzzy logic in control of autogenous fusion of copper-nickel sulphidic materials
2011 N. V. Danilova, E. D. Kadyrov
Sulphatization refinement of products from pyrometallurgical processing of technogenic waste containing platinum metals
2011 G. V. Petrov, V. N. Kovalev
The impact of iron content on sulphide аlloys compound
2011 S. N. Saltykova, F. A. Vasilev, G. I. Dolivo-Dobrovolskaya
Bahavior of insoluble anods obtained оn the base of secondary lead by electrowinning copper from sulfuric solution
2011 M. V. Martirosyan, R. B. Dzhorukhyan, V. A. Mazmanyan
Automation means in technological process оf flotation of ores of minerals
2011 A. O. Sviridenko, S. A. Belyakov
Prediction of the technical status of pipeline based on analysis
2011 A. N. Lyubchik, E. I. Krapivskii, O. M. Bolshunova