Analysis of the working of a high-productivity flat-glass furnace using a physical modeling method
Science for the Glass Industry
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KeywordsPolymer Furnace Physical Modeling Modeling Method Physical Modeling Method
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- 1.V. P. Bespalov, I. M. Savina, L. Ya. Levitin, and O. N. Popov, “Mass exchange of glass with higher temperatures at the bottom of the melting tank,” Steklo Keram., No. 10, 12–14 (1988).Google Scholar
- 2.I. M. Savina, V. P. Bespalov, L. Ya. Levitin, and O. N. Popov, “The effect of the design of the distributing unit on the heatand mass-exchange of the glass,” Steklo Keram. No. 1, 9–11 (1989).Google Scholar
- 3.V. P. Bespalov, I. M. Savina, L. Ya. Levitin, and O. N. Popov, “The effect of the size of the hot-conditioning zone on the homogenizing capacity of a flat-glass furnace,” Steklo Keram. No. 2, 12–14 (1990).Google Scholar
- 4.V. P. Bespalov, I. M. Savina, L. Ya. Levitin, and O. N. Popov, “Fining and homogenizing glass in a flat-glass furnace,” Steklo Keram, No. 3, 13–15 (1991).Google Scholar
© Plenum Publishing Corporation 1992