1. Електронний архів ДонНТУ м.Покровськ
  2. Факультет машинобудування, електроінженерії та хімічних технологій
  3. Кафедра електричної інженерії
  4. Наукові праці співробітників кафедри Електричної інженерії
Please use this identifier to cite or link to this item: https://ea.donntu.edu.ua/jspui/handle/123456789/34619
Title: Energy efficient water-cooled elements for foundry class electric arc steelmaking furnaces
Authors: Niemtsev, Eduard
Timoshenko, Sergei
Gubinskij, Mikhail
Keywords: foundry class electric arc furnace
water-cooled elements
energy efficiency
Issue Date: Mar-2021
Publisher: Національна металургійна академія України
Citation: 1. Biswas, S., Peaslee, K., Lekakh, S. (2012). Melting energy efficiency in steel foundries. AFS Transactions 2012 © American Foundry Society, Schaumburg, Il. USA, 449-456. 2. Mironov, Yu.M., Petrov, V.G. (2010). Thermal losses and power efficiency of arc steelmaking furnaces. Metally (Russian Metallurgy), 12, 1141-1144. 3. Toulouevski, Yu., Zinurov, I. (2010) Innovation in Electric Arc Furnaces. Scientific Basis for Selection. Berlin (Germany): Springer-Verlag. 258 p. 4. Timoshenko, S..M., Doroshenko, A..V., Dyadkov, B.P., Tischenko, P.I., Onischenko, S.P. (2018). Energoeffektivnyye resheniya pri modernizatsii malotonnazhnykh dugovykh staleplavil'nykh pechey liteynogo klassa (Energy-efficient solutions for the modernization of low-tonnage arc furnaces of foundry class). Metall i lyt’e Ukrayny (Metal and casting of Ukraine), 3-4, 34-40. 5. Logar, V., Dovžan, D., Škrjanc, I. (2012). Modeling and validation of an electric arc furnace. ISIJ International, vol. 52, 3, 402-423. 6. Gruber, J-C., Echterhof, T., Pfeifer, H. (2016). Investigation on the Influence of the Arc Region on Heat and Mass Transport in an EAF Freeboard using Numerical Modeling. Steel research international, vol. 87, no.1, 15–28. DOI: 10.1002/srin.201400513. 7. Timoshenko, S.N. (2016). Computer modeling bath geometry to improve energy efficiency of electric arc furnace. System Technologies. Regional interuniversity collection of scientific works. Dnipro: NMetAU-IVK Systemni tekhnolohiyi, 3, 33-39. 8. Patent US 5772430. F27D 9/00. M. Pavlicevic, G. Gensini, A. Poloni, R. Sellan (1996). Cooling device with panels for electric arc furnaces. Danieli &Co Off. Mec., Spa (Italy). 9. Kruger, K., Ehrbar, A., Timm, K. (1998). Schlackenanbackungen und thermische Verluste eines Drehstrofens. Stahl und Eisen, 9 (118), 63-67.
Abstract: Low energy efficiency of foundry class electric arc steelmaking furnaces (EAF) mainly is caused by heat loss by massive lining during forced downtime. A low-power transformer doesn’t allow, in the conditions of classical technology, practice of traditional water-cooled elements in order to replace partially the lining, what determines increased refractory consumption. The aim is energy and refractory savings. On the basis of numerical modeling of heat exchange by radiation in the EAF working space, taking into account capacity, bath shape factor, duration of technological period of heat, a multiple regression equation for power of heat loss with cooling water was obtained. Three-row water-cooled wall panels with a spatial structure are elaborated, which provide a decrease in heat loss by 14 %, in comparison with two-row ones. Estimates of optimal relative cooled surface of the EAF working space, providing refractory savings up to 25-30%, are substantiated.
URI: http://ea.donntu.edu.ua/jspui/handle/123456789/34619
ISSN: 2708-0102
Appears in Collections:Наукові праці співробітників кафедри Електричної інженерії

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