CS253183B1 - Tunnel furnace for firing ceramic material with pressed fuel. - Google Patents

Abstract

The solution relates to a tunnel kiln for firing ceramic mass with pressed fuel. To improve the combustion conditions of this fuel, the kiln is provided with at least one exhaust fan of oxidizing air, located in the cooling zone of the kiln, the outlet pipe of which is directed into the ceiling and/or side walls in the heating zone of the kiln, at points corresponding to the temperature level of 700 to 800 °C on the temperature curve of the kiln.

Description

BACKGROUND OF THE INVENTION The present invention relates to a tunnel furnace for firing a ceramic mass with a compressed fuel.

When firing compacts from pressed material, it is necessary to create conditions in the furnace for perfect burning of this fuel. With regard to the technological principles of firing in tunnel furnaces, it is necessary that the fuel contained in the mass burns at the beginning of the burner zone, where the operating temperatures of 900 to 1,020 ° C are reached. However, the compressed fuel is not freely accessible to the air, and therefore its combustion occurs later and incompletely, so that its energy content is not fully utilized.

This drawback is remedied in a tunnel furnace according to the invention which is provided with at least one oxidation air exhaust fan located in the furnace cooling zone, the outlet pipe of which is connected to the ceiling and / or side walls in the furnace heating zone at locations corresponding to a temperature level of 700 to 800 ° C on the temperature curve of the furnace.

The advantage of this solution is that the additional warm air injected into the furnace in the said zone greatly supports the combustion of the pressed fuel and burns almost completely.

An example of a tunnel furnace ventilation arrangement according to the invention is shown in the accompanying drawing, in which Fig. 1 shows the temperature curve of the furnace, Fig. 2 shows a schematic sketch of the tunnel furnace in longitudinal section and Fig. 3 shows a schematic sketch of the furnace in plan. cut.

In the front of the furnace 11, in the heating zone 9, the mass of the compacts is gradually heated until it reaches a maximum temperature of 980 ° C in the burning zone 2. The fired body is then gradually cooled in the cooling zone 2 up to the ambient temperature at the outlet 2 of the furnace 1. In the temperature range 400 to 500 ° C, pairs of exhaust fans 2 P ^r ° are recirculated. In the ceiling of the cooling zone 2, an exhaust air exhaust fan 10 is installed, whose outlet duct 11 is connected to the ceiling of the furnace 2 in the heating zone 9, where the temperature reaches 700 to 800 ° C. The orifice is provided by conventional burner nozzles.

The outlet duct 11 is provided with a throttle to regulate the amount of conveyed air. While the flue gas recirculation system 5 allows the combustion of the combustible gases produced by the distillation of the fuel pressed into the fired mass at low temperatures, the oxidation air exhaust fan 10 by blowing warm air into the heating zone 2 improves the conditions for perfect combustion of the pressed fuel.

Claims (1)

Tunnel furnace for firing ceramic material with compressed fuel, characterized in that it is provided with at least one oxidation air exhaust fan (10) located in the cooling zone (6) of the furnace (1), whose outlet pipe (11) is connected to the ceiling and / or side walls in the heating zone (9) of the furnace (1), at locations corresponding to a temperature level of 700 to 800 ° C on the temperature curve of the furnace.