The sequence of adaptation of a conjugate mathematical model describing external heat transfer in the working space, as well as heat transfer and hydrodynamics of the melt in the melting basin of a glass-making furnace with a horseshoe-shaped flame is considered. It is shown that with the correct setting of the basic boundary conditions for modeling to adapt the model, it is sufficient to use the experimental dependences of the air heating temperature and the temperature of the molten glass at the outlet from the melting basin on the furnace productivity. Equations have been obtained that establish the relationship between the specific heat consumption and the maximum melting temperature and the specific removal of molten glass, which can be used in constructing an algorithm for controlling the thermal operation of a glass-melting furnace of the investigated design. Il. 3, bibliography: 7 titles.
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UDK 666.1.031.13:532.5
Article type:
Science for glass production
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