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A Relation Between the Flow Density and Flame Length in the Work Space of the Bath Smelting Furnace

Published date:Jul 17 2018

Journal Title: KnE Engineering

Issue title: VII All-Russian Scientific and Practical Conference of Students, Graduate Students and Young Scientists (TIM'2018)

Pages:10–15

DOI: 10.18502/keg.v3i5.2650

Authors:
Abstract:

The article provides mathematical modelling results of radiation flow formation in the work space of the smelting (glassmaking, open-hearth) furnace with different heating patterns and flow distribution over the surface of the bath and enclosing structures. A significant influence of the flame length upon technical and economic parameters of furnace operation was found out.


Keywords: bath smelting furnace, glass-melting furnace, mathematical modelling, flame length, radiation flows, temperature field

References:

[1] Shvydkii, V. S. and Dzyuzer, V. Ya. (2009). Designing of Energy-efficient Glassmaking Furnaces, p. 339. M.: Teplotechnik.


[2] Dzyuzer, V. Ya. and Shvydkii, V. S. (2016). Boundary conditions for designing the lining of a glass-founding furnace with innovative parameters to improve technical efficiency. Refractories and Industrial Ceramics, vol. 56, no. 6, pp. 597–600.


[3] Dzyuzer, V. Ya., Shvydkii, V. S., and Sadykov, E. B. (2013). Modeling of the thermal operation of a high-capacity glassmaking furnace. Glass and Ceramics, vol. 69, no. 9–10, pp. 302–305.


[4] Shvydkii, V. S., Spirin, N. А., Ladygichev, M. G., et al. (1999). The Elements of the System Theory and Numerical Methods for Modelling Processes of Heat and Mass Transfer: College Textbook, p. 520. M.: Intermet-Engineering.


[5] Turchak, L. I. and Plotnikov, P. V. (2002). The Fundamentals of Numerical Methods: College Textbook, p. 304. M.: Fizmatlit.


[6] Dzyuzer, V. Ya. (2017). Generalized analysis of the heat work of glassmaking furnaces. Refractories and Industrial Ceramics, vol. 58, no. 1, pp. 25–28.


[7] Sokolov, B. A. and Abakin, D. A. (2017). Use of the heat of molten glass aided by circulating furnace gases. Glass and Cceramics, vol. 74, no. 7–8, pp. 278–281.


[8] Sborshchikov, G. S. and Terekhova, A. Yu. (2017). Selection of the optimal air heating temperature for glassmaking tank furnaces. Glass and Ceramics, vol. 74, no. 1–2, pp. 18–19.

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