CS256550B1 - The method of heating the glass melting tank by the top breed line - Google Patents

Abstract

The heating method consists in burning a mixture of gas and preheated air. The gas is fed through a nozzle into the combustion chamber at a speed of 1 to 30 m/s. In the combustion chamber, intensive mixing of the gas and preheated combustion air occurs, which is fed into the combustion chamber through an air duct at a speed of 1 to 15 m/s. The axes of both streams, i.e. the stream of gaseous fuel and combustion air, make an angle of 15 0 to 30 ® and intersect in the combustion chamber. The use of the above heating method achieves intensive mixing of the fuel with the combustion gas, suitable flame distribution and flue gas flow in the combustion chamber. This reduces fuel consumption and limits corrosion of the ladles and refractory linings.

Description

The invention relates to a method of heating a glass melting ladle furnace with a top flame conduction by burning a mixture of gas and preheated air in the furnace combustion chamber.

Flame retardant glass furnaces are heated so that the combustion air gas is supplied to one or more pairs of burners located opposite each other in the front walls of the furnace. The functions of the opposite burners alternate. Preheated combustion air with gas is led through one burner, the burner burning for about 30 minutes. The flue gas is drawn off with the same burner for another 30 minutes while the opposite burner burns. The hot flue gases are drawn into the regenerator, where their heat is stored and after changing the burning sides, this heat is transferred to the combustion air stream.

The purpose of heating the furnace is to achieve the required temperature for melting and processing the glass with minimum consumption of gaseous fuel and maximally avoiding contact of flame and flowing flue gases with the glass, ladles and refractory lining of the furnace. The effects of furnace heating depend on the method of forming the fuel / air mixture, the shape of the flame, and the direction of flue gas flow in the furnace space.

In the prior art methods of heating a ladle furnace with a top flame conduit, gas and air are mixed, igniting and subsequently burning the resulting mixture before the burner opens into the combustion chamber. As a result, some of the fuel energy is released inefficiently in the burner and the burning mixture corrodes the burner lining. Such methods are described, for example, in Glass Furnaces, SNTL, 1975, pp. 189-194 or in Czechoslovakia AO Nos. 132,083 and 217,745.

By means of physical modeling and practical verification, it has been found that these disadvantages are eliminated or substantially reduced by using the heating method according to the invention.

The object of the invention is a method of heating a glass melting pot. In the furnace with the upper flame conduction combustion of the air-gas mixture, the principle is that the gas stream is fed at a rate of 1 to 30 m / s to the furnace combustion chamber, where it mixes with a stream of preheated combustion air supplied at a rate of 1. m / s, while the flow axis of gas and air form an angle of 15 OJZ> ⁰ and 30 intersect in the combustion chamber of the furnace. The specific velocities of the air and gas streams and the magnitude of the angle between the axes of the two streams are selected depending on the overall dimensions of the furnace, the size of the combustion chamber of the furnace, the dimensions of the pans, etc.

The method of heating a ladle furnace according to the invention ensures a perfect mixing of the gas with the combustion air, the axis of the flame formed being oriented 250 [deg.] - 300 mm above the upper edges of the ladles. In this way the flame contact with the refractory lining of the furnace, the pelvis and the level of glass in the ladles are prevented. This avoids corrosion of the ladles or furnace linings and undesirable reactions to the level of the glass in the pans, which can lead to damage to the glass quality by chemical cords, corrosion products and bubbles and unwanted discoloration of the glass.

A further advantage is that all combustible fuel components burn in the furnace space above the pans and thus the maximum amount of heat released is used for melting the glass, thereby reducing energy consumption.

An example of an embodiment of the invention is a method of heating an eight-pan furnace with a top flame guide. The preheated combustion air was fed from the generator to the furnace combustion chamber at a rate of 9.3 ra / a through a horizontally located air duct terminated by an inlet section. Co-gas was fed from above to the combustion air stream at a speed of 10 m / s by means of three nozzles located in the ceramic burner fitting opening into the port. The burner nozzle axes were inclined at 30 ^° relative to the horizontal plane to achieve the desired angle of inclination of the gas flow axis to the air flow axis, and the axes intersected in the furnace combustion chamber. The mixture of air and coal gas was intensively mixed in the combustion chamber of the furnace and the flame was distributed about 200 mm above the upper edges of the pans.

Claims (1)

A method of heating a glass melting furnace with a top flame guide comprising burning a mixture of fuel gas with preheated air, characterized in that a gas stream at a rate of 1 mesh 30 m / s and a preheated air stream at the same time are supplied to the furnace combustion chamber. 5 m / s, wherein the axes of the gas and air streams form an angle of 1530 and intersect in the furnace combustion chamber.