Nikolaev et al., 2014 - Google Patents
Electrical optimization of superpowerful arc furnacesNikolaev et al., 2014
View PDF- Document ID
- 8200442750764543841
- Author
- Nikolaev A
- Kornilov G
- Anufriev A
- Pekhterev S
- Povelitsa E
- Publication year
- Publication venue
- Steel in translation
External Links
Snippet
Requirements on the systems controlling the electrical conditions of superpowerful arc furnaces in steel smelting are outlined. The basic principles for electrical optimization at different phases of smelting are considered. An improved mathematical model is proposed …
- 238000005457 optimization 0 title abstract description 13
Classifications
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHTING NOT OTHERWISE PROVIDED FOR
- H05B7/00—Heating by electric discharge
- H05B7/02—Details
- H05B7/144—Power supplies specially adapted for heating by electric discharge; Automatic control of power, e.g. by positioning of electrodes
- H05B7/148—Automatic control of power
Similar Documents
Publication | Publication Date | Title |
---|---|---|
Nikolaev et al. | Electrical optimization of superpowerful arc furnaces | |
AU2002231514B2 (en) | Power control system for AC electric arc furnace | |
US6573691B2 (en) | Control system and method for voltage stabilization in electric power system | |
Nikolaev et al. | Method of setting optimum asymmetric mode of operation of electric arc furnace | |
AU2002231514A1 (en) | Power control system for AC electric arc furnace | |
Nikolaev et al. | Research and development of automatic control system for electric arc furnace electrode positioning | |
Nikolaev et al. | The comparative analysis of electrode control systems of electric arc furnaces and ladle furnaces | |
Morello et al. | Arc furnace performance validation: using modeling, monitoring, and statistical analysis | |
Martell-Chávez et al. | Theoretical estimation of peak arc power to increase energy efficiency in electric arc furnaces | |
Nikolaev et al. | Developing and testing of improved control system of electric arc furnace electrical regimes | |
RU2725489C2 (en) | Flicker suppression at electric arc furnace | |
EP0483405B1 (en) | Flicker compensating apparatus for DC arc furnace | |
Yakimov et al. | Investigation of electrical characteristics of high-power electric arc furnaces in the mode of stabilizing the primary current of the furnace transformer by means the thyristor regulator in the intermediate circuit | |
Mironov et al. | Analysis of characteristics of electric arc furnaces as control objects | |
Nikolaev et al. | Improved Methodology for Optimising the Electrical Operation of a Shaft-Type Arc Steelmaking Furnace | |
Nikolaev et al. | Development of a methodology for selecting optimum asymmetric arc combustion modes in ladle-furnace installations under different argon purging regimes | |
RU176106U1 (en) | Electric control system for an electric arc furnace | |
Lozynskyi et al. | Development of methods and means of computer simulation for studying arc furnace electric modes | |
Abdulveleev et al. | Research of DC electric arc furnace with commutated power circuit | |
Паранчук et al. | Computer investigation of voltage fluctuations on the power busbars of an arc steel-melting furnace | |
Yakimov et al. | Results of modeling operation of the high-speed regulator of non-contact secondary voltage of furnace transformer of the high-power arc steel furnace in constant primary current mode | |
Yakimov et al. | Improving efficiency of ultra-high power arc furnaces with thyristor control voltage of furnace transformer | |
RU2758063C1 (en) | Control system for an arc steel furnace | |
Schäfer et al. | Optimal control of static VAr compensators in power supply systems with electrical arc furnaces | |
Lozynskyi et al. | Reduction of Phase Interactions in Control Processes of Arc Steel-Making Furnace–Power Supply System” Complex Electrical technological System |