CS245550B1 - Method of furnace atmosphere adjustment during simax parison melting - Google Patents

Description

The purpose of the solution is to prevent the formation of a surface silica layer during melting of SIMAX or PYREX glass in melting aggregates heated by natural gas.

This is achieved by providing an oxidizing atmosphere with an excess of oxygen of 0.5 to 4% by volume in the trunking part and in the purging area, and a reducing to moderately oxidizing atmosphere with an oxygen content of 0.0 to 1% by volume in the wall. The resulting oxygen content in the flue gas is 0.5 to 4% by volume.

The invention solves the limitation of the formation of a surface silica layer during melting of SIMAX or PYREX glass in melting aggregates with a metal recuperator.

SIMAX or PYREX glass melts in gas or electric melting units. In the case of electrical melting, the silica layer is essentially not formed. However, melting the molten glass in the gas melting aggregates causes the oxides to escape from its surface, thereby forming a viscous surface layer which degrades the molten glass. The gaseous fuel, as is known, always contains a small amount of sulfur compound, which upon combustion is oxidized to either sulfur dioxide or sulfur trioxide, of which sulfur trioxide strongly reduces the volatility effect of the surfactant components of the strain, such as boron oxide, sodium oxide and potassium oxide, which form a siliceous surface at high melting temperatures of 1560 to 1600 ° C and level stability. As a result of the flow of the glass, the siliceous layer is released, the pieces of which mix with the surrounding glass and cause deterioration of the glass and thus of the products made therefrom. The siliceous layer is removed from the enamel level in various ways, such as by mechanical digging, continuous overflow through the overflow as reported by Melting Glass, SNTL Prague, 1970, possibly by mechanical overlaying the enamel level, saturating the furnace atmosphere with volatile components and the like. and hence its negative impact on the quality of the enamel.

These disadvantages are substantially reduced by adjusting the furnace atmosphere during melting of SIMAX or PYREX glass in melting aggregates with a metal recuperator, heated by natural gas containing at least 0.3 mg of sulfur in 1 m ^{3 of} natural gas, according to the invention, an oxidizing atmosphere with an excess of 0.5 to 4% by volume in the flue gas taken from the furnace compartment is created in the trunking and purging area and a reducing to moderately oxidizing atmosphere containing oxygen content of 0 is created in the part of the wall, ie. 0 to 1% by volume. The resulting oxygen content of the flue gas collected above the inlet of the metal recuperator is then 0.5 to 4% by volume.

By adjusting the furnace atmosphere according to the invention, the combustion of the gaseous fuel in the melting aggregate takes place to form sulfur dioxide, thereby increasing the surface tension of the molten glass and the associated movement of the molten glass, thereby substantially reducing or even preventing the formation of a surface silica layer. . The induced flow also improves the homogeneity of the enamel and hence the quality of the products. A further advantage is that a mechanical device for removing the silica layer is not required during melting.

An exemplary embodiment of a furnace atmosphere setting method for melting glass SIMAX according to the invention is illustrated by the following example.

Example

The melting of the glass Simax in the melting aggregate metal heat recovery heated by natural gas containing 1 mg of sulfur VLM ³ gas is in the part of the log loading and refiner in creating the oxidizing atmosphere with an excess of oxygen of 1% by volume of the flue gas taken out of the furnace chamber and the part-President of forming reducing atmosphere with an oxygen content of 0,0% vol. The resulting oxygen content of the flue gas from the inlet of the metal recuperator is 1% by volume.

Claims (1)

Method of setting the furnace atmosphere in melting glass SIMAX or PYREX in melting aggregates with a metallic recuperator, heated by natural gas, containing at least 0,3 mg of sulfur in 1 m ^{3 of} natural gas, characterized in that oxidizing atmosphere with an excess of oxygen of 0.5 to 4% by volume in the flue gas OF THE INVENTION taken from the furnace space and part of the wall, i. j. from a blackening zone upstream, a reducing to slightly oxidizing atmosphere is formed with an oxygen content of 0.0 to 1% by volume, the resulting oxygen content of the flue gas taken above the inlet of the metal recuperator being 0.5 to 4% by volume.