RU139788U1 - BURNER - Google Patents

Abstract

A burner device containing a circulation pipe located inside the annular air nozzle, while high-concentration dust and air nozzles are installed in the inlet end of the burner device, introduced inside the circulation pipe, and the outlet end face of the annular air nozzle is inserted inside the boiler chamber embrasure, and between the ring air a nozzle and a circulation pipe are placed a shell forming an annular cylindrical channel with a circulation pipe, characterized in that inside the annular cylinder matic channel between the circulation tube and shell radially mounted longitudinal stiffening ribs between the input end of the burner device and the circulation pipe an annular gap, the entrance end of the sleeve connected to the inlet end of the burner, and its output end inside zavedon embrasures boiler furnace.

Description

The technical solution relates to the field of power engineering and can be used at thermal power plants.

Burner devices are known in which electric heaters are used for gasification (ignition) of dust.

Closest to the claimed is a known burner device (patent for utility model No. 109528 IPC F23D 1/02. Publ. 10/20/2011) containing a circulation pipe located inside the annular air nozzle, while high pressure dust nozzles are installed in the inlet end of the burner device concentration and air brought into the circulation pipe, and the outlet end face of the annular air nozzle is inserted into the embrasure of the boiler furnace, and a shell is formed between the annular air nozzle and the circulation pipe, forming I have a circular cylindrical channel with a circulation pipe, inside of which electric heaters are installed.

The disadvantages of the known burner devices include the use of electric heaters to ignite the dust inside the burner device.

The new technical solution is based on the task of providing ignition of dust inside the burner device without the use of electric heaters.

The problem is solved in that in the burner device containing the circulation pipe located inside the annular air nozzle, while in the inlet end of the burner device, high concentration dust and air nozzles are installed inside the circulation pipe, and the outlet end face of the ring air nozzle is inserted inside the embrasure boiler furnace, and between the annular air nozzle and the circulation pipe there is a shell forming an annular cylindrical channel with the circulation pipe, about a new technical solution, longitudinal stiffeners are radially installed inside the annular cylindrical channel between the circulation pipe and the casing, an annular gap is formed between the inlet end of the burner device and the circulation pipe, the inlet end of the casing is connected to the inlet end of the burner, and its outlet end is inserted into the furnace embrasure boiler.

Radial installation of longitudinal stiffeners inside the annular cylindrical channel between the circulation pipe and the shell, making an annular gap between the inlet end of the burner and the circulation pipe, connecting the inlet end of the shell to the inlet end of the burner, and inserting its outlet end into the embrasure of the boiler furnace, provides ignition of dust in the burner due to the suction of incandescent flue gases in the root of the torch of the burner, which will eliminate the use of electron heaters.

In FIG. 1 shows a longitudinal section of a coal burner; in FIG. 2 is a section AA in FIG. one.

The burner device contains a circulation pipe 1 located inside the annular air nozzle 2. At the inlet end 3 of the burner device, nozzles 4 and 5 for supplying high concentration of dust and air, respectively, are inserted inside the circulation pipe 1. The output end of the annular air nozzle 2 is inserted inside the embrasure 6 furnace 7 of the boiler, and between the circulation pipe 1 and the annular air nozzle 2 there is a shell 8, forming with the circulation pipe 1 an annular cylindrical channel 9. Inside the annular qi An annular channel 9 between the circulation pipe 1 and the casing 8 is placed radially longitudinal stiffeners 10. Between the input end 3 of the burner device and the circulation pipe 1 is formed an annular gap 11. The input end of the shell 8 is connected to the input end 3 of the burner, and the output end of the shell 8 is wound inside the embrasure 6 firebox 7 boiler. The burner device also includes an inlet nozzle 12 for supplying hot air to the annular air nozzle 2 and a nozzle 13 for taking hot air from the annular air nozzle 2 to the nozzle 5 for air supply through the gas line 14. In addition, an annular gap is formed between the circulation pipe 1 and the nozzle 5 for air supply 15. The circulation pipe 1 with stiffeners 10 can be made in the form of a monolithic block, for example, of heat-resistant ceramics.

The burner device operates as follows.

When the boiler is running, high concentration dust (PVC) and air, respectively, from nozzles 4 and 5 are fed into the circulation pipe 1 of the burner device, due to the ejection of the working nozzles 4 and 5, the hot gases (with a temperature of up to 1100 degrees) are sucked from the furnace 7 boiler through an annular cylindrical channel 9 and annular gaps 11 and 15 into the circulation pipe 1, to the root of the torch of the burner. In the circulation pipe 1, the incandescent flue gases are mixed with high concentration dust, which ensures ignition of the dust inside the burner device without the use of electric heaters.

Tests of the burner at GRES-2 in Zelenogorsk, Krasnoyarsk Territory, confirmed that when high-concentration dust and air nozzles were turned on in the burner, there was a suction of hot flue gases from the furnace through an annular cylindrical channel into the circulation pipe and a mixture of heated hot gases in the circulation pipe with dust of high concentration, which provides ignition of dust in the burner device.

Claims (1)

A burner device containing a circulation pipe located inside the annular air nozzle, while high-concentration dust and air nozzles are installed in the inlet end of the burner device, introduced inside the circulation pipe, and the outlet end face of the annular air nozzle is inserted inside the boiler chamber embrasure, and between the ring air a nozzle and a circulation pipe are placed a shell forming an annular cylindrical channel with a circulation pipe, characterized in that inside the annular cylinder matic channel between the circulation tube and shell radially mounted longitudinal stiffening ribs between the input end of the burner device and the circulation pipe an annular gap, the entrance end of the sleeve connected to the inlet end of the burner, and its output end inside zavedon embrasures boiler furnace.

Images