SU1476246A1 - Boiler - Google Patents

Abstract

The invention relates to power engineering and makes it possible to increase the cost-effectiveness and explosion safety of a boiler. The gas duct is divided by a tubular screen 1 into the central lifting gas channel 3 and the peripheral lowering gas channel 4 communicated in the upper part by the rotating chamber 2. Channel 3 is equipped with a grate 5 and solid fuel loading device 6 located above the rotating chamber 2. When the boiler is in operation, channel 3 is filled fuel, and channel 4 - an inert nozzle, which ensures the absence of closed voids in the gas duct and increases the explosion safety of the boiler. The design of the boiler allows it to organize flameless combustion of fuel in it, which improves the heat exchange conditions and reduces heat loss. 1 il.

Description

• The invention relates to energy and can be used in steam generating plants.

The purpose of the invention is to increase the efficiency of the boiler by reducing heat loss, including in the flame itself, and improving heat transfer conditions, as well as increasing explosion safety by filling the duct with an inert nozzle and fuel. 10

The drawing shows a boiler, General view.

The boiler contains a gas duct divided by a tubular screen 1 into a central lifting gas channel 3 and a peripheral lowering gas channel 4. The channel 3 is provided with a grate 5 and a solid fuel loading device 6 located above the rotary one, which is communicated in the upper part by a rotary chamber 15. camera 2 and made in the form of a hopper. Channel 4 is filled with an inert nozzle.

The pipes of the screen 1 are connected to the drum 7 and connected to the water heater 75 located in the lowering channel 4. In turn, the drum 7 is connected to the superheater 9. The duct is connected to the chimney 10 in which the gate 11 is installed. 30

The pipe 10 is connected to the lifting channel 3 by a hatch 12 with a gate 13. The lifting channel 3 forms a combustion chamber, and the lowering channel 4 forms a cooling chamber.

The boiler operates as follows.

Dry firewood is loaded onto the grate 5, on which coal is laid until the combustion chamber and the hopper are filled. When using lean and fine coals, they are loaded in several portions of! as the temperature of the flue gases rises above 80 ° C. The gate 13 is completely closed, and the gate 11 is opened. Then they fire wood through the gaps in the grate 5.

At the ignition stage, is excess heat used to heat and enter the flameless combustion mode? the entire mass of fuel in the combustion chamber. Combustion products passing through the labyrinths of fuel in the lifting channel 3 are directed through the rotary chamber 2 to the labyrinths of the inert nozzle of the lowering channel 4. In this case, the combustion products give off heat to the screen 1, the water heater 8 and the superheater 9. The cooled combustion products leave the gas duct through the chimney 10.

In the process of continuous combustion in the combustion chamber, the fuel sags, * and the vacant space is spontaneously replenished with fuel from the hopper. Heated air is carried out in the lower part of the lifting channel 3 by means of a slowed flow of a reduced amount supplied in.

j combustion chamber without using! special air heater.

In the boiler, flameless burning of solid fuel is organized, which is lower ^; reduces heat loss, improves heat transfer conditions and increases efficiency. The absence of closed voids in the flue increases the explosion safety of the boiler.

Claims (1)

FORMULA A boiler containing a gas duct divided by a tubular screen into the central lifting and peripheral lowering gas channels communicated in the upper part of the rotary chamber, the first of which is equipped with a grate and a solid fuel loading device, exc And with the fact that, in order to increase efficiency and explosion safety, the lowering channel is additionally filled with an inert nozzle, and the fuel loading device is located above the rotary chamber.