KnE Engineering

ISSN: 2518-6841

The latest conference proceedings on all fields of engineering.

Register for Content Alerts
Navigation

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.

Recommendations
FACIAL RECOGNITION SYSTEM FOR SECURED MOBILE BANKING
Fatema A. Albalooshi et al., KNE ENGINEERING, 2018
STRUCTURAL AND PHASE TRANSFORMATION IN A COLD-DEFORMED TITANIUM ALLOY DURING AGING
A. Illarionov et al., KNE ENGINEERING, 2019
IMPLEMENTATION OF A SYSTEMATIC APPROACH TO THE DESIGN A COMMUNAL CAR CM
S. Mitrofanov, KNE ENGINEERING, 2020
THE RELATION OF CONTEMPORARY LABOUR MARKET SKILLS AND THE FUTURE ENGINEERS’ VISIONS
C. Szabó et al., KNE ENGINEERING, 2020
RUSSIAN HARDSTONE PIECES AT THE BAVARIAN KINGS’ RESIDENCES: INTRODUCTORY NOTES
L. A. Budrina, KNE ENGINEERING, 2018
USE OF NON-DISTRACTIVE TESTING AU-E TECHNOLOGY TO EVALUATE HEARTH CONDITIONS AT CHERMK–SEVERSTAL
E. Vinogradov et al., KNE ENGINEERING, 2018
EFFECT OF THE MECHANISM TRANSFER FUNCTION ON THE POSITIONING LAW
S. Misyurin et al., KNE ENGINEERING, 2018
ELABORATION OF GEOTECHNICAL THEMATIC MAPS IN URBAN AREAS
A. Monteiro et al., KNE ENGINEERING, 2020
OPTICAL FIBER POLYMER SENSOR SYSTEM WITH TIO2-SIO2 CLADDING FOR MEASURING HUMIDITY
Febrielviyanti et al., KNE ENGINEERING, 2019
THE METHODOLOGY AND RESULTS OF RADIATION TESTS OF ADS 8320 ANALOG-TO-DIGITAL CONVERTER
A. Bakerenkov et al., KNE ENGINEERING, 2018
Powered by
Download
HTML
Cite
Share
statistics

269 Abstract Views

158 PDF Downloads