The effect of flame length on exterior heat exchange in a glass melting furnace with horseshoe-shaped flame / Dzyuzer V.Ya., Shvydkii V.S. // Glass and Ceramics (English translation of Steklo i Keramika). - 2005. - V. 62, l. 7-8. - P. 197-201.

ISSN:

03617610

Type:

Article

Abstract:

The topicality of studying heat and mass exchange in a glass-melting furnace with horseshoe-shaped flame is substantiated. The main requirements on advisable flame length in this type of furnace are formulated. The need for jointly solving the exterior and interior heat-transfer problems is demonstrated. The results of calculating temperatures of the gaseous medium, the roof, and the glass melt surfaces depending on the flame length are given. It is established that based on the set of conditions, the recommended length of the flame can be taken equal to the furnace length. The extent of the intense combustion zone (visible part of the flame) in this case is approximately 0.7 furnace length. © 2005 Springer Science+Business Media, Inc.

Author keywords:

Index keywords:

Approximation theory; Combustion; Flammability; Heat transfer; Mass transfer; Melting; Problem solving; Combustion zone; Flame length; Glass melting; Mass exchange; Glass

DOI:

10.1007/s10717-005-0071-8

Смотреть в Scopus:

https://www.scopus.com/inward/record.uri?eid=2-s2.0-27844546632&doi=10.1007%2fs10717-005-0071-8&partnerID=40&md5=edf4dc364f6f9cd9344a148ad673301f

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Другие поля

Поле	Значение
Link	https://www.scopus.com/inward/record.uri?eid=2-s2.0-27844546632&doi=10.1007%2fs10717-005-0071-8&partnerID=40&md5=edf4dc364f6f9cd9344a148ad673301f
Affiliations	Ural State Technical University, Ekaterinburg, Russian Federation
References	Dzyuzer, V.Ya., Optimum flame length in a glass-melting furnace with lateral flamen (1985) Production and Research of Glass and Silicate Materials, Coll. Works [in Russian], pp. 45-48. , Yaroslavl; Kut'in, V.B., Gushchin, S.N., Lisienko, V.G., Heat exchange processes in glass-melting furnace with lateral flame direction (1997) Steklo Keram., 6, pp. 7-9; Dzyuzer, V.Ya., Shvydkii, V.S., Klimychev, V.N., Methods of controlling thermal performance of a glass-melting furnace (2005) Steklo Keram., 4, pp. 23-26; Daniels, M., Einschelzverhalten von glasgemengen (1973) Glastechn. Ber., 46, pp. 40-46; Dzyuzer, V.Ya., Shvydkii, V.S., Kut'in, V.B., Mathematical model of a glass-melting furnace with horseshoe-shaped flame direction (2004) Steklo Keram., 10, pp. 8-12; Dzyuzer, V.Ya., Shvydkii, V.S., Mathematical model of hydrodynamics of the melting tank of a glass-melting furnace (2005) Steklo Keram., 1, pp. 3-8; Lisienko, V.G., Levitin, L.Ya., Fetisov, B.A., Prediction of thermal performance of a glass-melting furnace (1989) Steklo Keram., 4, pp. 6-9; Fedyaeva, L.A., Gushchin, S.N., Kut'in, V.B., Mathematical modeling of thermal performance of a tank furnace for melting silicate materials (1991) Strait. Mater., 2, pp. 17-18; Lisienko, V.G., Heat exchange processes in flame furnaces (1978) Problems of Flame in Metallurgical Furnaces, Coll. Works, Issue 87 [in Russian], pp. 40-72. , Moscow
Correspondence Address	Dzyuzer, V.Ya.; Ural State Technical University, Ekaterinburg, Russian Federation
CODEN	GLCEA
Language of Original Document	English
Abbreviated Source Title	Glass Ceram
Source	Scopus