KnE Materials Science

ISSN: 2519-1438

The latest conference proceedings on physical materials, energy materials, electrical materials.

Improving the Reliability of Rotary Furnace Drums By Stabilizing the Temperature Regime By Effect of Electromagnetic Fields

Published date: Dec 31 2020

Journal Title: KnE Materials Science

Issue title: IV Congress “Fundamental Research and Applied Developing of Recycling and Utilization Processes of Technogenic Formations” Volume 2020

Pages: 553–559

DOI: 10.18502/kms.v6i1.8142

Authors:

Yuri Vladimirovich Mikhailov - gagarin14.05@gmail.com

Alexander Alexandrovich Rukomoinikov

Rinat Gazizyanovich Abdeev

Eldar Rinatovich Abdeev

Abstract:

The unevenness of the heat flow generated in the furnaces of the drums of rotary kilns leads to damage to the drum casing, which can cause premature failure. The author suggests that by deflecting the flame by applying electromagnetic fields, it is possible to prevent direct contact between the flame and the furnace drum, extending the latter’s service life. In this way, it is possible to regulate the directions of movement of the heated combustion products to realize the uniform distribution of heat fluxes, as well as to regulate local temperature fields in real time. The study took into account 5 main factors of the influence of the electromagnetic field on the flame. Based on the studies, a description of a device partially integrated in the furnace is proposed. In this case, there is no significant constructive modernization of the furnace. This device is an analogue of a high-temperature fan, but has several advantages in comparison with it.

Keywords: electromagnetic field, furnace, flame, heat exchange

References:

[1] Ryskulov, R. G., et al. (1992). Ensuring Optimal Heat Transfer in Soda Ovens. Express inform. Ser XM-9. CISATIchemical and oil engineering, no. 3678, p. 4.

[2] Bobrov, A. S. (2015). Intrinsic Electric Field Strength of a Propane Diffusion Flame with an Excess of an Oxidizing Agent with an Inert Addition of Argon. New Science: Strategies and Development Vectors, No6-2 p. 76.

[3] Fedorovich, G. V. (2004). Ecological Monitoring of Electromagnetic Fields. G.V. Fedorovich: Moscow. 140 p.

[4] Zainagatdinova, L. R. and Saitov, R. I. (2017). The Use of Microwave Electromagnetic Fields in the Separation of Oil-Water Emulsions. In Modern Technologies in the Oil and Gas Business - 2017 Collection Of Works Of The International Scientific And Technical Conference. (Shayakhmetov U.Sh Ed.). pp..126-129.

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