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Metallurgist

Erschienen in:

25.09.2020

Methodology of Technical Re-Equipment and Modernization of Furnace Structures and Operating Modes

verfasst von: G. M. Druzhinin, A. A. Ashikhmin, P. V. Maslov, A. B. Popov, I. M. Khammatov, N. B. Loshkarev

Erschienen in: Metallurgist | Ausgabe 5-6/2020

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Abstract

Presently, the furnace stock of the ferrous metallurgy and heavy engineering industry comprises approximately 55%–60% of units with service life over 30–50 years. Considering that constructing new furnaces requires significant financial investments and reduces production over a long period, the technical re-equipment and modernization of units in accordance with modern requirements have become widely adopted. This paper presents an appropriate methodology for the technical re-equipment and modernization, one that enables reducing time and achieving the optimal result with the lowest cost.

Vorheriger Artikel Scientific Problems in Creating Intelligent Control Systems for Technological Processes in Pyrometallurgy Based on Industry 4.0 Concept

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G. M. Druzhinin, Development and Implementation of Methods and Devices that Provide Energy Conservation and Reduction of Harmful Emissions During Gas Combustion in Metallurgical Furnaces [in Russian], dissertation of the Doctor of Engineering Science, Yekaterinburg (2004).

Town-Planning Code of the Russian Federation, December 29, 2004 No. 190-FZ.

The Federal Law “On Industrial Safety of Hazardous Production Facilities,” July 21, 1997, No. 116-FZ (Latest Revision).

G. M. Druzhinin, L. A. Zaynullin, M. D. Kazyaev, N. A. Spirin, and Yu. G. Yaroshenko, “Resource and energy problems of ferrous metallurgy (in order of discussion),” Izv. Vyssh. Ucheb. Zav. Chern. Metallurg., 57, No. 1, 3–8 (2014).

L. A. Zaynullin, G. M. Druzhinin, and A. A. Butkarev, “Innovative development of SRIMHE for energy saving and ecology in metallurgy,” Chern. Metallurg., No. 7 (1375), 79–82 (2014).

Yu. I. Lipunov, K. Yu. Eismondt, M. V. Startseva, Yu. G. Yaroshenko, E. V. Nekrasova, G. M. Druzhinin, and E. V. Popov, “Introduction of modern energy and resource-saving equipment and environmentally friendly technology of heat hardening in the production of fishplates,” Chern. Metallurg., No. 12 (1368), 61–64 (2013).

G. M. Druzhinin, A. A. Ashikhmin, P. V. Maslov, A. B. Popov, N. B. Loshkarev, and S. A. Galkin, “Thermal furnace with combined heating system,” Stal’, No. 3, 70–74 (2015).

A. A. Ashikhmin, G. M. Druzhinin, A. B. Popov, I. M. Khammatov, V. A Chistopolov, and N. B. Loshkarev, “Automated unit for heat treatment,” Stal’, No. 3, 87–90 (2015).

G. M. Druzhinin, Yu. A. Samoilovich, and E. V. Popov, “Methods for reducing thermal heterogeneity of massive steel slabs when heating in continuous slab heating furnaces,” Stal’, No. 7, 27–32 (2013).

10.

G. M. Druzhinin, A. A. Ashikhmin, N. B. Loshkarev, P. V. Maslov, and A. B. Popov, “Development and assimilation of thermal furnaces with a regenerative heating system,” Metallurg, No. 12, 25–30 (2016).

11.

G. M. Druzhinin, Yu. A. Samoilovich, and E. V. Popov, “Computational studies of fuel heating in furnaces with a pulsed fuel consumption control system,” Chern. Metallurg., No. 1 (1381), 55–61 (2015).

12.

G. M. Druzhinin, Yu. A. Samoilovich, and E. V. Popov, “Calculation analysis of scale formation and reduction of waste of metal during unplanned downtime of a heating furnace,” Stal’, No. 9, 46–50 (2014).

13.

M. R. Bartash, G. M. Druzhinin, N. B. Loshkarev, A. B. Popov, and I. M. Khammatov, “New high-rate recuperative gas burner for direct heating of metal in industrial furnaces,” Stal’, No. 3, 125 (2010).

14.

A. V. Epishin, I. G. Asaturyan, A. M. Belenky, A. N. Bursin, and A. A. Ulanovsky, “Improvement of efficiency of heating furnaces of hot rolling mills according to the results of an industrial experiment,” Metallurg, No. 4, 54–58 (2014).

15.

A. M. Belenky, M. Yu. Dubinsky, and S. I. Kalimulina, “Industrial experiment as the basis of energy-saving policy in metallurgical heat engineering,” Metallurg, No. 5, 26–29 (2010).

16.

M. D. Kazyaev, D. M. Kazyaev, E. V. Kiselev, A. M. Vokhmyakov, and D. I. Spitchenko, “A comprehensive study of the heat operation of a chamber furnace for heating a thin steel sheet for hardening,” Izv. Vyssh. Ucheb. Zav. Chern. Metallurg., 62, No. 10, 803–809 (2019).

17.

V. M. Vokhmyakov, M. D. Kazyaev, B. N. Arseev, D. M. Kazyaev, and A. I. Ryaposov, “Complex modernization of heating furnaces,” Izv. Vyssh. Ucheb. Zav. Chern. Metallurg., No. 12, 56–59 (2009).

18.

M. V. Temliantsev, K. S. Konoz, A. Yu. Dzyuba, A. A. Umansky, and N. V. Temliantsev, “The development of metal-saving heating modes in continuous slab furnaces of section billets of steel grade 60S2XA,” Izv. Vyssh. Ucheb. Zav. Chern. Metallurg., 58, No. 8, 545–549 (2009).

19.

V. G. Anufriev, G. M. Druzhinin, and E. M. Kotlyarevsky, “Investigation of the thermal performance of walking-beam furnaces,” Stal’, No. 10, 85–88 (1982).

Titel: Methodology of Technical Re-Equipment and Modernization of Furnace Structures and Operating Modes
verfasst von: G. M. Druzhinin
A. A. Ashikhmin
P. V. Maslov
A. B. Popov
I. M. Khammatov
N. B. Loshkarev
Publikationsdatum: 25.09.2020
Verlag: Springer US
Erschienen in: Metallurgist / Ausgabe 5-6/2020
Print ISSN: 0026-0894
Elektronische ISSN: 1573-8892
DOI: https://doi.org/10.1007/s11015-020-01030-8

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