SU855343A1 - Burner - Google Patents

Description

(54) BURNER

one

The invention relates to burners in which gaseous fuel is mixed with air before being fed into the combustion space, and can be used in various thermal units, for example, during firing of building materials in rotary kilns, during the installation or heating of the internal masonry of the mixers.

The closest to the technical essence of the present invention is a burner comprising a vertical housing provided with an external cooling jacket and at the lower end an outlet nozzle angled to the vertical axis of the housing, and in the latter coaxially installed pipe for supplying the oxidant, forming an annular channel for the housing gas passage, connected by its lower section to the outlet nozzle, as well as the nozzle with an inlet orifice for supplying the oxidant located in the same vertical plane with the outlet nozzle com and inclined similar to the last to the vertical axis of the housing 1.

However, cooling the burner with water when operating in hot conditions, for example when placing the burner at the outlet of products

Combustion, during drying, and laying of mixers leads to irretrievable losses of heat absorbed by water.

The purpose of the invention is to increase the combustion efficiency.

The goal is achieved by the fact that the oxidizer supply pipe is filled at the bottom end and provided with perforations in the side wall, and the nozzle is installed along the axis of the outlet nozzle, perpendicular to the axis of the housing, and connected with its inlet opening

10 lower part of its side wall to the source of oxidant through the cavity of the housing cooling jacket, provided with a transverse guide partition placed in the plane passing through the axis of the nozzle and forming the passage opening with the outside side wall section of the cooling jacket of air.

This embodiment of the burner design

20 allows the walls of the housing to be cooled with air (an oxidizing agent), which is supplied to the cooling jacket, then through the air passageway formed by the transverse guide wall and the section of the cooling jacket, as well as through the inlet opening made in the lower part of the nozzle, air enters into the root of the torch, and contributes to the stabilization of combustion. Cooling the outer surface of the burner, the air heats up, takes heat, which when water is cooled is lost permanently, which leads to an increase in the efficiency of fuel combustion.

FIG. 1 shows the proposed burner, a longitudinal section; in fig. 2 shows section A-A in FIG. I.

The burner contains a vertical housing 1 provided at the lower end with an outlet nozzle 2, as well as an external cooling jacket, which consists of a section 3 of the external cooling jacket of the housing

1 and section 4 of the external cooling jacket framing the output nozzle 2. At one end, section 4 of the external cooling jacket framing the output nozzle 2 is connected to the section 3 of the external cooling jacket of the housing 1 which is perpendicular to it, and the other walls 5 with an outlet nozzle 2. Along the axis of the vertical body 1, a pipe 6 for supplying air (oxidizer) is formed coaxially with the latter, forming an annular gas channel with the body I. The annular channel is connected downstream to the inlet nozzle

2. Pipe 6 is loaded from the bottom end with a plug 7 and provided with a perforation 8 in the side wall. In the same vertical plane with the outlet nozzle 2, COOCHQ with it and perpendicular to the vertical axis of the housing 1, the nozzle 9 for air supply (oxidant) to the root is installed torch. In the lower portion of the side wall of the nozzle 9, in the cavity between the portion 3 of the outer cooling jacket of the housing 1 and the vertical housing 1, an inlet opening 10 is made. Through the opening and the cavity of the cooling jacket, the nozzle is connected to an additional air source (oxidizer). Mow the surface of the outer side wall 5 of section 4 of the cooling jacket surrounding the exit nozzle

2 and the surface of the nozzle 2 in a plane passing through the axis of the nozzle 9, is placed transverse to the partition wall 11, consisting of two equal sections. The partition 11 at one end is connected to the side surface of the nozzle 9, on the other it forms with the side wall 5 of section 4 of the cooling jacket 3 framing the exit nozzle 2 an opening for the passage of air (oxidant).

The burner works as follows.

In the annular channel formed by the pipe 6 and the housing 1, the gas enters the burner. Air is supplied through pipe 6, which

It flows out in small streams through the perforations 8, moves with the gas and forms a gas-blowing mixture, which is finally moving in the annular channel formed by the nozzle 9 and the outlet nozzle 2, which flows out of the burner. Additional air (oxidizer) enters the annular channel between section 3 of the cooling jacket of the housing and case 1, then into the upper half of the annular channel between section 4 of the external cooling jacket surrounding the outlet nozzle and outlet nozzle 2. The annular channel is divided into upper and lower half at the help of the transverse guide baffles 11. The additional air (oxidizer) cools the exit part of the burner, entering the gap between the side wall 5 and the baffles 11, through the lower half of the annular channel, and akzhe through the inlet 10, the nozzle 9 into the root of the flame, contributing to its stabilization. By cooling the burner, additional air contributes to a higher burning efficiency.

Claims (1)

Invention Formula A burner containing a vertical housing provided with an external cooling jacket and at the lower end with an outlet nozzle angled to the vertical axis of the housing, and in the latter coaxially installed pipe for supplying oxidant, forming an annular gas passage with the housing, connected by its lower section to the outlet nozzle, as well as an inlet nozzle for supplying an oxidizing agent, placed in the same vertical plane with the outlet nozzle and tilted similarly to the vertical axis of the building a, characterized in that, in order to increase the combustion efficiency, the oxidizer supply pipe is filled from the bottom end and provided with perforations in the side wall, and the nozzle is installed along the outlet nozzle axis, is located perpendicular to the housing axis, and is connected with its inlet made in the lower part of its side wall, to the source of oxidant through the cavity of the cooling jacket of the housing, provided with a transverse guide partition placed in the plane passing through the axis of the nozzle and forming second sidewall cooling rubaschki framed yuschim outlet nozzle, opening the air passage. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 343112, cl. F 23, 1971. Feed A-and