SU1539460A1 - Coal-dust burner for swirl-type combustion chamber - Google Patents

Abstract

This invention relates to fuel combustion and can be used in boilers. The purpose of the invention is to increase the efficiency and reliability of the combustion process. When secondary air is supplied through the main nozzle 3 formed by a pair of slotted channels placed along the edges of the nozzle 2 aero mix within its envelope and directed parallel to the nozzle 2, as well as through an additional nozzle 4, the axis of which forms an acute angle with the nozzle 2 from the side of the pipe 2, which exposes the flow of flow gases to the strongest demolition, acquires a pointed profile. This ensures a smooth flow around the torch by flue gases and a minimum level of fuel removal in the initial part of the torch development. This level is maintained by self-regulating the system both in the regimes with uniform and with uneven supply of secondary air to the channels. 2 Il.

Description

Uui one

This invention relates to fuel combustion and can be used in boilers.

The purpose of the invention is to increase eco-comicity.

Fig, 1 shows the burner, a longitudinal section; in fig. 2 is a view A of FIG. one.

The burner contains a base plate 1 with a 2 azro-mix slot installed in its embrasure and one main and additional slot nozzles 3 and 4 located one side from its larger face, respectively, we assume the axis of the main nozzle 3 parallel to the axis of the chamber 2 and the axis of the additional nozzle .4 is inclined to the axis of this nozzle 2, equipped with dust-blowing nozzles 5. Nozzle 3 is made in the form of two slotted channels 6 located along the edges of the nozzle 2 aero mix within its dimension. An additional nozzle 4 is placed between the channels 6, and the large faces of these channels 6 and the additional nozzle 4 are perpendicular to the large faces of the nozzle 2 of the aero mix, and the angle of inclination of the additional air nozzle 4 to the axis of the nozzle 2 is 20-45. The burner is installed in a vortex furnace 7.

The burner works as follows.

The air mixture consisting of coal dust and primary air enters the furnace volume from nozzle 2, and the secondary air comes from channels 6 and nozzle 4. At a nominal load of the heat unit, the flow of secondary air through channels 6 and the nozzle 4 is maintained approximately the same. At the exit to the furnace 7, the dust moving from the center of the stream of the aerosol mixture deviates

about

five

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the air jet from the nozzle 4 from the initial direction downwards, while the dust passing around the periphery of the air mixture stream continues to move with the air flowing out of the channels 6 in the initially predetermined direction. As a result, a fan-shaped torch is formed with a developed ignition perimeter and a profile narrowing downwards. This contributes to the early and sustained ignition of the mixture and creates favorable conditions for the smooth flow of flue gas flowing around the torch, moving upwards from bottom to top, whereby the flow of fuel from the torch to the firing zone is minimal.

Claims (1)

Invention Formula A pulverized coal burner for a vortex furnace containing a base plate with a slit pipe installed in its embrasure and the main and additional slit air nozzles located on one side of its larger face, the axis of the main nozzle parallel to the axis of the aero mixture pipe and the axis of the additional nozzle inclined to this axis nozzle, in connection with the fact that, in order to improve efficiency, the main air nozzle is made in the form of two slotted channels located along the edges of the nozzle mixture within its envelope, An additional air nozzle is placed between these channels, with large edges of these channels and an additional air nozzle perpendicular to the large faces of the air mix nozzle, and the angle of inclination of the additional air nozzle axis to the axis of the air mix nozzle is 20-45 °. BuOA FIG. 2