SU1288439A1 - Method for operation of prismatic combustion apparatus - Google Patents

Abstract

The invention relates to a power system and m. used when burning fuels. The invention improves the efficiency. The aerosol is fed into the furnace volume through the vortex nozzles (C) 3 and 4, and the secondary air is fed through the flow C 6. When leaving C 3 and 4, the vortex II eject hot flue gases. As a result, the slurry is heated, and the fuel in it is ignited. The cross movement of the P of the air mixture and the secondary air leads to turbulence in the zone of their mixing, which allows for the intensive burning out of the fuel. 2 Il. c (L VidA /, oo CX) 00 oo with Tszig.2.

Description

The invention relates to the combustion of fuel and can be used in thermal power plants.

The aim of the invention is to improve the economy.

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

The prismatic firebox contains vortex nozzles 3 and 4 arranged on vertical walls 1 and 2, respectively, and placed on horizontal wall 5 between vortex nozzles 3 and 4, straight nozzles 6.

Nozzles 3 and 4 are connected to the source of the mixture, and the nozzle 6 - to the air source.

The method is carried out as follows.

. Aero mix enters the furnace volume through vortex nozzles 3 and 4, and secondary air through direct nozzles 6. Aero mix flows in vortex nozzles 3 and 4, forming the corresponding pairs, twist in different directions. Upon exiting nozzles 3 and 4, vortex flows eject hot gases, causing the air mixture to warm up and the fuel in it to ignite. As it develops, the vortex flows interact with the cross-flow: secondary air flows, which are actively introduced into the vortex flows both in the horizontal part of the movement of these flows and in the vertical section. At the same time, the stepwise flow of secondary air during the combustion process allows maintaining an increased concentration of the oxidizing agent in the flare in the zones of active combustion and burning and reduced

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in the initial part of the development of the torch,. This contributes to the fact that this process takes place under favorable conditions from the point of view of the formation of nitrogen oxides, the amount of which decreases during combustion. The cross movement of the air mixture and secondary air streams leads to strong turbulization in the zone of their mixing, which allows, in the presence of an oxidizing medium in the flare, to provide intensive fuel burn-out and, consequently, to increase efficiency.

When a pair of jets twisted in different directions interact, an effect occurs associated with an increase in the tangential component of the velocity in the zone between the jets, which can be used in the proposed method. By changing the direction of twist of each nozzle 3 and 4 to the opposite, it is possible to influence the dynamics of the flue gases by changing the intensity of interaction between the mixture of the air mixture and secondary air and, thus, control the combustion process.

Claims (1)

Invention Formula The method of operation is prismatic: furnaces with vortex nozzles arranged in pairs on its vertical walls and spaced between the latter on the horizontal wall of the direct flow nozzles by means of a separate air mixture and secondary air, which and secondary air through direct-flow nozzles. figure 1