SU1686262A1 - Hearth burner - Google Patents

Abstract

The invention relates to gas-burning devices for various purposes and can be used in boilers of low and medium power. The burner can improve the quality of combustion under variable conditions and reduce energy costs in it. To achieve this goal, a plate 6 with protrusions 7 is installed above the air distribution grill 5, the number of which is equal to the number of holes 3 in the pipe 2, and the spacing between the projections 7 is equal to the pitch between the holes 3. 4 Il.

Description

The invention relates to power engineering, in particular to devices for burning gaseous fuels, and can be used in boilers of medium and low power.

The aim of the invention is to improve the quality of combustion under variable conditions.

FIG. 1 shows a general view of the burner; in fig. 2 shows section A-A in FIG. one; in fig. 3 - the first version of the position of the gas section of the tube and plate; in fig. 4 - the second variant of the relative position of the gas distributing pipe and plate,

The burner contains a tunnel 1, at the entrance to which a gas-distributing pipe 2 is located at one of the walls, on the side surface of which there are holes 3. The gas-distributing pipe 2 is installed with the possibility of longitudinal movement (using known technical means). The pipe 2 is installed in the air duct 4, in which the air distribution grill 5 is located. On the grill 5 in front of the pipe 2 there is a plate 6 with projections 7. The number of holes 3 and the pitch between them are equal to the number of projections 7 and the pitch between them. The height of the projections 7 is equal to 0.6 of the width of the tunnel 1.

The burner works as follows.

The air enters through the air duct box 4. At the same time, it passes through the air distribution grill 5, evenly distributed over the box section. By mounting the plate 6 behind the protrusions 7, shadow currents are formed in which low-intensity circulation zones are realized. In this case, the distribution of dynamic parameters (speeds) due to the presence of plate 6 is realized in the air flow ahead of the gas supply location. Patterns

Yo

Os

00 Oh

yoo yu

The deviations of the gas jets (including the depth of their introduction into the stream) depend on the relative position of the holes 3 in the wake behind the projections 7 (see Fig. 3). The gas jets are supplied to the shadow zones of the air flow, with the maximum depth of penetration of the gas jets. With the staggered arrangement of the holes 3 and the protrusions 7 (see Fig. 4), the gas is supplied to the active zones of the flow (where the maximum values of velocity and dynamic pressure of the discharge flow occur), while the depth of penetration of the jets is minimal. Consequently, by moving the gas distribution pipe 2, optimum mass transfer is maintained under varying operating conditions. With Hb - 0.6 Nt, the range of change in operating conditions, within which an optimum exchange rate is ensured, is maximum. Here Yves - the height of the ledge, Nt - the width of the tunnel,

Claims (1)

Claims of the Invention A burner burner comprising an air heater, air beneath the conduit duct and a burner tunnel, as well as an air diffuser, over which a gas distribution pipe is installed with outlet openings on the side surface. that, in order to improve the quality of combustion under variable conditions, a plate with protrusions is additionally installed above the air distribution grille, and the pitch between them is equal to the pitch between the holes of the gas distribution pipe, installed with the possibility of longitudinal movement, and the height of the protrusions is equal to 0.6 of the tunnel width. .j P4 7 Ufie .1 sixteen Fie.2 Fi.Z Fig.b