RU130671U1 - BURNER - Google Patents

Abstract

A burner device including a kindling burner and a circulation pipe with a burner nozzle, in which a high concentration dust ring nozzle is installed in front of the burner inlet end, inserted inside the circulation pipe and provided with high concentration tangential dust pipes, an axial nozzle is inserted inside the high concentration dust ring nozzle low pressure air with a regulating gate, tubular electric heaters are placed between the circulation pipe and the shell on which a cylindrical conical collector is installed, the cylindrical part of which is larger than the shell diameter and is connected by an annular vertical insert with a circulation pipe, characterized in that the cylindrical conical collector is installed on the outlet end of the shell, and the annular vertical insert is connected to the outlet end of the circulation pipe, while the inlet section of the circulation pipe has additional tangential hot air nozzles directed tangentially to the high concentration dust tangential nozzles and and connecting the cylindrical conical collector through the annular cavity between the circulation pipe and the ring with the annular nozzle.

Description

The technical solution relates to the field of power engineering and can be used at thermal power plants for oil-free kindling of boilers.

A burner device is known (patent for utility model No. 95072 IPC F23D1 / 06, published on 06/10/2010.), Comprising a kindling burner including a circulation pipe with a burner nozzle located inside an annular air nozzle, in front of the inlet end of which there is an annular high-pressure dust nozzle concentration (PVC), inserted inside the circulation pipe and equipped with tangential nozzles for supplying dust of high concentration and high-pressure air, and axioms are inserted inside the annular nozzle for supplying dust of high concentration Flax nozzle slabonapornogo air regulating damper, and the input portion of the annular air nozzle connected to an air line through the control gate, wherein the output end of the annular air nozzle wound into embrasures burner of the boiler furnace, and tubular heaters (heating elements) are arranged between the circulation tube and shell.

A disadvantage of the known burner device is the reduction in the service life of electric heaters due to their overheating during operation of the burner device in the standard burner mode.

A burner device is known (patent for utility model No. 109528 IPC F23D1 / 02, published on October 20, 2011) containing a kindling burner, including a circulation pipe with a burner nozzle, an annular high-concentration dust nozzle (PVC) installed in front of the burner inlet a circulation pipe equipped with tangential nozzles for supplying dust of high concentration, and an axial nozzle of low-pressure air with a control gate is inserted inside the annular nozzle for supplying dust of high concentration, and tubular electric Tron heaters (TENs) are placed between the circulation pipe and the shell, at the end of which a cylindrical conical manifold is installed with a tangential branch pipe connected to it with a gate connected to a source of cold air, the cylindrical part of the collector being larger than the shell diameter and connected by an annular vertical insert with a circulation pipe.

A disadvantage of the known burner device is the supply of cold air inside the burner device, which reduces the efficiency of kindling the boiler.

The basis of the new technical solution is the task of increasing the efficiency of kindling the boiler.

The problem is solved in that in a burner device including a kindling burner and a circulation pipe with a burner nozzle, in which a high concentration ring dust nozzle is installed in front of the burner inlet end, inserted inside the circulation pipe and provided with high concentration tangential dust supply pipes, inside the ring nozzle high-concentration dust supply, an axial nozzle of low-pressure air with an adjusting gate has been opened; tubular electric heaters are placed between the circus According to the new technical solution, the cylindrical conical collector is installed on the outlet end face of the shell, and the annular vertical insert is connected to the outlet end of the circulation pipe, in this case, the inlet section of the circulation pipe has additional tangential hot air supply pipes directed tangentially ngentsialnym nozzles supplying a high concentration of dust and cylindric connecting manifold through the annulus between the circulation tube and shell with an annular nozzle.

Installing a cylindrical-conical collector shell at the outlet end and connecting the annular vertical insert to the outlet end of the circulation pipe so that the inlet section of the circulation pipe has additional tangential hot air pipes connecting the cylindrical cone through the annular cavity between the circulation pipe and the ring with the annular nozzle, directed tangentially tangentially high concentration dust pipes, increases the temperature of the air supplied to the burner roystvo, providing a stable ignition of dust, which increases the efficiency of firing the boiler.

1 schematically shows a burner device (longitudinal section); figure 2 is a section aa in figure 1.

A burner device containing a kindling burner includes a circulation pipe 1 with a burner nozzle 2. An annular nozzle 3 of high concentration dust (PVK) is installed in front of the inlet end of the burner, inserted inside the circulation pipe 1 and equipped with tangential nozzles 4 of high concentration dust supply. An axial low-pressure air nozzle 5 with an adjusting gate 6 is inserted inside the annular nozzle 3 of high concentration dust. Tubular electric heaters (TENs) 7 are placed between the circulation pipe 1 and the shell 8, at the end of which there is a cylinder conical collector 9 with a tangential branch pipe 10 connected to it with a gate 11, which is connected to a source of cold air 12. Moreover, the cylindrical part 13 of the collector 9 is larger than the diameter of the shell 8 and is connected by an annular vertical insert 14 with a circulation pipe 1. A cylindrical conical collector 9 is mounted on the output end of the shell 8, and the annular vertical insert 14 is connected with the output end of the circulation pipe 1, while the input section of the circulation the pipe has additional tangential nozzles 15 for supplying hot air, connecting the cylindrical conical manifold 9 through the annular cavity 16 between the circulation pipe 1 and the ring 8 with rings vym nozzle 3. The tangential nozzles 15 supply hot air cocurrent direction tangential nozzles 4, supplying a high concentration of dust. The burner device also has an air source 17 connected to the annular air nozzle 18 for supplying tertiary air to the furnace 19 of the boiler.

The burner device operates as follows. When the tubular electric heaters 7 are turned on, the circulation pipe 1 warms up. The gate 11 opens and the cold air from the cold air source 12 enters through the tangential pipe 10 into the cylindrical conductor 9. From the cylinder conical collector 9, cold air is distributed in the annular cavity 16 between the circulation pipe 1 and the shell 8 and between tubular electric heaters 7, blowing them, which increases the temperature of the air entering the annular nozzle 3. After heating to a temperature of self-ignition of dust on the red-hot walls of the circulation pipe 1 through the annular nozzle 3 by tangential nozzles 4 for supplying dust of high concentration in the ignition mode, high concentration dust (PVC) is supplied. The aerosol mixture ignites and burns in the presence of low-pressure air supplied from the axial air nozzle 5, regulated by the gate 6. After that, the aerosol mixture enters the burner nozzles 2 and then into the furnace 19 of the boiler. There, from the annular air nozzle 18, tertiary air is supplied from the air source 17, providing ignition of the volatile fuels emitted from the fuel in the circulation pipe 1, which by their torch ignite the coke base, which burns out in the furnace 19 of the boiler. After kindling the boiler, the tubular electric heaters 7 are turned off, and the kindling burner device operates in the standard burner mode,

Thus, an increase in the temperature of the air supplied to the circulation pipe of the burner device during the kindling of the boiler helps to increase the kindling efficiency.

Claims (1)

A burner device including a kindling burner and a circulation pipe with a burner nozzle, in which a high concentration dust ring nozzle is installed in front of the burner inlet end, inserted inside the circulation pipe and provided with high concentration tangential dust pipes, an axial nozzle is inserted inside the high concentration dust ring nozzle low pressure air with a regulating gate, tubular electric heaters are placed between the circulation pipe and the shell on which a cylindrical conical collector is installed, the cylindrical part of which is larger than the shell diameter and is connected by an annular vertical insert with a circulation pipe, characterized in that the cylindrical conical collector is installed on the outlet end of the shell, and the annular vertical insert is connected to the outlet end of the circulation pipe, while the inlet section of the circulation pipe has additional tangential hot air nozzles directed tangentially to the high concentration dust tangential nozzles and and connecting the cylindrical conical collector through the annular cavity between the circulation pipe and the ring with the annular nozzle.

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