SU1476251A2 - Burner - Google Patents

Abstract

The invention can be used in the furnaces of boilers and industrial furnaces. The purpose of the invention is to increase the efficiency of the burner. An axial fan 3, a jet turbine 4 and a disk 7 are sequentially installed in the housing 1 on the fuel supply shaft 2. The hollow vanes 5 of the turbine 4 have fuel discharge nozzles 6, and the disk 7 has air nozzles 8 located opposite the nozzles 6. In the housing in the nozzle area 8, an annular cavity 9 is provided with an inertial flywheel 10 located therein fixed peripherally to the disk 7. The shell 11, mounted inside the housing, forms with it an annular channel 12 communicated with the cavity 9. This allows a vacuum to be created in cavity 9 and thereby reduce drag resistance Ear rotating flywheel 10, which increases the efficiency. 2 Il.

Description

The invention relates to a power system and can be used to burn fuel in furnaces of boilers, industrial furnaces, as well as other heat power devices.

Figure 1 shows a burner, a longitudinal section; figure 2 · "section aa in figure 1.

The burner comprises a housing 1 with a central hollow fuel-supply shaft 2 and an axial fan 3 and a jet turbine 4 with hollow blades 5 having fuel-emitting nozzles 6 sequentially mounted on the shaft 2. A disk 7 is installed on the shaft 2, equipped with air nozzles 8 located opposite the nozzles 6.

An annular cavity 9 is made in the casing 1 in the zone of the air nozzles 8, in which 20 an inertial flywheel 10 is mounted, which is mounted peripherally on the disk 7. Inside the casing 1, an additional shell 11 is installed that forms an annular channel 12 with the casing 1 and connected to the annular cavity 9. Inside the shaft 2 is located and attached to it a shaft 13 connected to the generator 14,

The burner operates as follows.

Fuel is supplied through the hollow shaft 2, exits through the blades 5 of the jet turbine 4 and, mixed with air, burns out in the nozzles 8. The resulting combustion products exit the nozzles 5 8 at high speed and rotate the hollow shaft and, together with it, the axial fan and a disk 7 with an inertial flywheel 10. Together with the entire rotating system, the shaft

13. In this case, the generator 14 begins to generate electricity and transmit it to the consumer.

The installation of the inertial flywheel 10 in the annular cavity 9 and the communication 15 of the latter with the channel 12 allows you to create a vacuum in the cavity 9, thereby reducing air resistance to the rotating flywheel 10 and increase efficiency.

Claims (1)

Claim Automotive burner No. 1090969, 'characterized in that, with the aim of increasing efficiency, an annular cavity is made in the housing in the area of the air nozzles, in which an inertial flywheel is mounted peripherally mounted on the disk, and 30 a shell is additionally installed inside the housing, forming an annular channel with the housing communicated with the annular cavity. Figure 2