SU1384884A1 - Burner unit - Google Patents

Abstract

Invention m. used in furnaces of boilers, industrial furnaces and other heat and power plants. The purpose of the invention is to reduce the local heat loads in the lower radiation part of the furnace by reducing the maximum heat release in the core of the flame. The rotary gate 10 is made in the form of a disk 11 and a shell, on the surface of which holes are made that overlap the similar holes 14 made in the housing 1 and are offset relative to each other. The casing of the gate is located between the outlet section of the housing and the air inlets 7, and the disk at the base of the pipes communicates with the atmosphere. At reduced boiler loads, the gate is installed in such a way that the fuel is burned with a lack of oxidizing agent, and the combustion is ensured far from the torch core due to the bypass of a part of air through the pipe. At the nominal load of the boiler, the gate is installed in such a way that the fuel coming out of the tubes 9 is ejected (/

Description

00

oo

00

oo

four

1

em air from the atmosphere. The fuel is burned in two coaxial torches, and the external torch forms the products of combustion of reduced temperature due to the cold air from the atmosphere and its excess excess. The excess oxidant is used outside the flare core by the excess amount of fuel supplied through the central collector 2. 3 sludge.

one

The invention relates to the field of heat and power engineering and can be used for burning fuel in burners installed in furnaces of boilers, industrial furnaces and other heat and power installations.

The aim of the invention is to reduce the local heat loads in the lower radiation part of the furnace by reducing the maximum heat release in the core of the flame.

FIG. 1 shows a burner, a longitudinal section; in fig. 2 shows section A-A in FIG. one; in fig. 3 - gate.

The burner comprises an air supply housing 1, divided by an annular gas manifold 2 into coaxial channels 3 and 4, a central fuel oil nozzle 5 and placed around the housing 1: a casing 6 with nozzles 7 for air supply and an additional gas collector 8 with dispensing tubes 9 installed coaxially in pipes 7, a rotary gate 10, made in the form of a disk 11 and a shell 12, on the surface of which holes 13 are made, blocking similar holes 14 in the housing 1, while the shell 12 of the gate 10 is located between the exit LM body portion 1 and the nozzles 7, and the disc 11 at the base of nozzle 7 MESSAGE Shchen atmosphere.

The device works as follows.

Combustion air is supplied to housing 1 and separated along coaxial channels 3 and 4, and combustible gas, such as natural gas, through an annular manifold 2, and fuel oil through an oil nozzle 5. A total living section of air channels 3 and 4 allows supplying 0

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0

five

0

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70–80% of the nominal flow is heated, and the remaining 30–20% of the remaining air is ejected with gas from the atmosphere when the fuel is fed into the tubes 9 through the manifold 8.

Under reduced loads of the boiler (30-80%), all the required amount of gas is supplied through the manifold 2, and the heated air through shackles 3 and 4. In this case, the rotary gate 10 is installed so that the holes 13 coincide with the holes in the nozzle 7 and part of the heated air from channel 4 enters the combustion zone through nozzles 7. Thus, fuel combustion is carried out with a lack of an oxidizing agent, and afterburning is provided far from the flare core due to bypassing some of the air through nozzles 7. A stepwise combustion of the fuel helps reduce under heat fluxes on the screens in the lower radiation part of the furnace.

Under normal boiler load, a shortage of fuel is supplied through the manifold 8 to tubes 9 placed in nozzles 7. In this case, busbar 10 is installed in such a way that the holes 13 on the disk 11 coincide with the entrance to the nozzles 7, and the holes 14 are blocked by the shell 12. Fuel at high speed out of the tubes 9 and ejects air from the atmosphere. The dimensions of the tubes 9 and nozzles 7 are chosen in such a way as to ensure complete preliminary mixing of gas with air with an air excess factor of 1.25-1.1.

Thus, the fuel is burned in two coaxial flares, and the external flare forms the products of combustion of lower temperature due to the cold air from the atmosphere and its increased excess. Excess oxidizer is used outside the flare core by excess amount of fuel supplied through central manifold 2.

Claims (1)

Invention Formula A burner device containing an air supply case, divided by an annular gas manifold into coaxial channels, a central fuel oil nozzle and a casing with air supply nozzles and an additional annular gas manifold with distribution pipes A-A arranged around the outlet section of the housing spirit, characterized in that, in order to reduce local heat loads in the lower radiation part of the furnace by reducing the maximum heat release in the flare core, the device additionally contains a rotary gate, performed in the form of a disk and a hard-wired box, on the surfaces of which holes that overlap similar holes made in the housing and are located relative to each other with an offset, while the gate flap is located between the outlet section of the housing and the air inlets And at the base of the drive nozzles communicated with the atmosphere. Phage.g FIG. 3