RU108555U1 - BURNER - Google Patents

Abstract

 A burner device comprising a kindling burner, including a circulation pipe mounted on the inner surface of the muffle, in front of the inlet end of which there is an annular nozzle for supplying dust of high concentration (PVC), inserted inside the circulation pipe, equipped with tangential nozzles for supplying dust of high concentration and high-pressure air, and inside the annular nozzle has an axial nozzle of low-pressure air with an adjustable gate, and a burner is connected to the outlet end of the circulation pipe a nozzle inserted into the embrasure of the burner device of the furnace of the boiler, located inside the annular nozzle of the tertiary air, and electric heaters, characterized in that the muffle is made of two ceramic coaxial cylinders connected by ceramic radial inserts between which these electric heaters are installed.

Description

The utility model relates to a power system and can be used at thermal power plants for oil-free heating of boilers

A known scheme of oil-free kindling of a boiler in a fire chamber (RF patent No. 2095684, IPC F23C 5/08, 1997) containing a dust source, a kindling burner of a boiler furnace connected to a dust source with a dust-wire with an electric heater in the form of a tubular muffle made of nichrome, heated by low current voltage.

A disadvantage of the known oil-free kindling scheme of the boiler is the cooling of the nichrome muffle with a high-speed dust flow (more than 20 m / s) passing through it, which prevents kindling, since the nichrome muffle has low thermal inertia and quickly cools below the dust ignition temperature.

A burner device is known (RF patent for utility model No. 91140, IPC F23D 1/06, published: 01/27/2010) containing a kindling burner including a circulation pipe mounted on the inner surface of the muffle, in front of the inlet end of which there is an annular high-concentration dust supply nozzle (PVC), inserted inside the circulation pipe, equipped with tangential nozzles for supplying dust of high concentration and high-pressure air, and an axial nozzle of low-pressure air with an adjustable m damper and the outlet end downcomer docked burner nozzles wound into embrasures boiler furnace burner device arranged inside the annular tertiary air nozzle, and heaters.

A disadvantage of the known device is the inefficiency of using induction heating in view of the high cost of high-frequency generators.

The utility model is based on the task of increasing the efficiency and efficiency of kindling boilers by increasing the thermal inertia of the muffle.

The problem is solved in that in a burner device containing a kindling burner, including a circulation pipe mounted on the inner surface of the muffle, in front of the inlet end of which there is an annular nozzle for supplying dust of high concentration (PVC), introduced inside the circulation pipe, equipped with tangential nozzles for supplying dust of high concentration and high-pressure air, and an axial nozzle of low-pressure air with an adjustable gate is introduced inside the annular nozzle, and to the outlet end face a casing pipe is connected to a burner nozzle, inserted inside the embrasure of the burner device of a boiler furnace, placed inside an annular nozzle of tertiary air, and electric heaters, according to a useful model, the muffle is made of two ceramic coaxial cylinders connected by ceramic radial inserts between which these electric heaters are installed.

The implementation of the muffle from two ceramic coaxial cylinders connected by ceramic radial inserts, between which these electric heaters are installed, improves the efficiency and efficiency of kindling the boiler by increasing the thermal inertia of the muffle.

Figure 1 shows a longitudinal section of the proposed burner device, figure 2 - section aa in figure 1.

The burner device comprises a kindling burner 1, including a circulation pipe 2 mounted on the inner surface of the muffle 3, in front of the inlet end of which there is an annular nozzle 4 for supplying high concentration dust (PVC), wound inside the circulation pipe 2, equipped with tangential pipes 5 and 6 for supplying high dust concentration and high-pressure air, and inside the annular nozzle 4 there is an axial nozzle 7 of low-pressure air with an adjustable gate 8, and 2 joints to the outlet end of the circulation pipe n burner nozzles 9, 10 wound into embrasures burner boiler furnace apparatus 11 located inside the annular nozzle 12, the tertiary air, and heaters. According to a utility model, the muffle 3 is made of two ceramic coaxial cylinders 13 and 14, connected by ceramic radial inserts 15, between which the specified electric heaters 16 are installed, connected at the ends by clamps 17 to the mains. The upper coaxial cylinder 14 of the muffle 3 is covered with a heat-insulating layer 18, and the electric heaters 16 can be made in the form of tubular electric heaters made of silicon carbide.

The burner device operates as follows.

Electric heaters 16 are turned on and the muffle 3 and the circulation pipe 2 of the ignition burner 1 are heated. After heating the circulation pipe 2 to the dust auto-ignition temperature, in the ignition mode, high concentration dust is fed through the annular nozzle 4 through the annular nozzle 4 with tangential nozzles 5 and 6 (PVC ), and high-pressure air for spinning the mixture. The aerosol mixture ignites and burns in the presence of low-pressure air supplied from the axial air nozzle 7, regulated by the gate 8, after which the aerosol mixture enters the burner nozzles 9 and then into the furnace 11 of the boiler, where tertiary air is supplied from the annular air nozzle 12, which ensures efficient ignition of the released from fuel in the circulation pipe 2 volatile fuels, which with their torch set fire to the coke base, which burns out in the furnace 11 of the boiler. After kindling the boiler, the electric heaters 16 are turned off, and the burner device operates in the standard burner mode.

The proposed technical solution allows to increase the efficiency and efficiency of fuel ignition by increasing the thermal inertia of the muffle made of two ceramic coaxial cylinders connected by ceramic radial inserts.

Claims (1)

A burner device comprising a kindling burner, including a circulation pipe mounted on the inner surface of the muffle, in front of the inlet end of which there is an annular nozzle for supplying dust of high concentration (PVC), inserted inside the circulation pipe, equipped with tangential nozzles for supplying dust of high concentration and high-pressure air, and inside the annular nozzle has an axial nozzle of low-pressure air with an adjustable gate, and a burner is connected to the outlet end of the circulation pipe a nozzle inserted into the embrasure of the burner device of the furnace of the boiler, located inside the annular nozzle of the tertiary air, and electric heaters, characterized in that the muffle is made of two ceramic coaxial cylinders connected by ceramic radial inserts between which these electric heaters are installed.