SU1740867A1 - Vortex combustion chamber burner - Google Patents

Abstract

The invention relates to power engineering and can be used in burners of a predominantly vortex type. The purpose of the invention is to increase the reliability of ignition. This goal is achieved by installing the flame tube 8 along the axis of the distribution nozzle 4 with exhaust nozzles 5 on its end head 6, forming a flow opening of the working mixture. An additional hole in the end head b along the axis of the flame tube 8 provides an intermediate flame (3–5% of the main mass of fuel), which ignites from the ignition flame from the flame tube 8 and ensures reliable ignition of the bulk of the fuel (95-97%) coming out of the nozzles 5. These design methods allow to reduce the number of nozzles to one in the composition of the combustion device, facilitate operation, simplify the design of the unit, automate the processes of starting and maintaining the operating mode. 1 hp ff, 5 ill. SO with

Description

The invention relates to energy and can be used in burner devices primarily vortex type for the implementation of highly accelerated processes for obtaining a coolant and neutralization of dust and gas production waste with different moisture content.

The purpose of the invention is to increase the reliability of the ignition.

Figure 1 shows a device with a straight-through flow of the mixture, a longitudinal section; figure 2 is the same, with a tangential flow of the mixture; Fig. 3 is a view A in Figs. 1 and 2; figure 4 is a section bB in figure 2; figure 5 is a view In figure 1 and 2.

The burner device comprises a housing 1 with an injection nozzle 2 and a nozzle 3 for introducing a spraying agent at the inlet and a distribution outlet nozzle 4 with dispensing nozzles 5 in the socket 6, formed to form a system of diverging jets. An axial hole 7 is made in the end face 6 of the nozzle 4, an axial flame conduit 8 with an ignition device 9 is installed in the nozzle cavity 4, brought into the aforementioned hole 7, and an additional axial hole 10 is made in the end head 6 parallel to the axis of the flame duct 8. In addition, on the flame duct 8, transverse annular partitions 11 are installed in the cavity of the distribution nozzle 4 to form a labyrinth channel.

The device operates as follows.

They include draft machines, which provide a vacuum in the area of the mechanical head 6 of the nozzle 4 and in the cavity of the flame conduit 8. Due to the rarefaction, air enters and swirls through the tangential pipe 8 in the flame conduit 8. The ignition device is turned on. The 9th supply gas through the pipe. The swirling and mixed gas-air mixture ignites and forms a gas ignition torch, which enters the furnace volume through the end head 6. Next, a spray agent (steam) is fed through the nozzle 3, which passes through the cavity of the housing 1 and through the nozzles 5 enters the furnace volume. After heating the device, fuel (fuel oil) is supplied through the atomizer 2, setting the pressure in the fuel oil supply system to be not less than the pressure in the steam system in order to avoid low-frequency pulsations in the fuel oil supply and complications with ignition. In the housing 1, a mixture (emulsion) is formed, which passes through the housing 1, the labyrinth channel, where the mixing is intensified and the emulsion is uniformly supplied to the exhaust nozzles 5. The fuel mixture (3-5% of the total mass) exiting through the hole 10, when interacting with a swirling flow of air entering the combustion of liquid fuel, it is concentrated and ignited from the ignition torch at the socket 6. The ignited liquid fuel serves as a powerful source of ignition of the bulk (95-97%) of the fuel leaving pla 5.

Claims (2)

Claim 1. The burner device of the vortex combustion chamber, comprising a housing with an injection nozzle and a nozzle for introducing a spraying agent at the inlet, and an output distribution nozzle with dispensing nozzles in the socket head, the axes of which are inclined to the axis of the housing at different angles, characterized in that, in order to increase reliability of ignition, an axial hole is made in the front head of the distribution nozzle, an axial flame tube is installed in the nozzle cavity with an ignition device brought into the hole, and in the end an additional hole is made to the head parallel to the axis of the flame duct. 2. The device according to claim 1, with the fact that transverse annular partitions are installed on the flame duct in the cavity of the distribution nozzle, forming a labyrinth channel. ‘‘ Ъ