SU433321A1 - GAS GOREZSHA - Google Patents

Description

The invention relates to gas burning devices and can be used in furnaces of boilers and furnaces.

Gas burners are known that contain a pipe with a gas supply date with radial holes in which a throttle moves, regulating the amount of radially and axially supplied gas.

However, these burners do not have a sufficient range of adjustment of the torch parameters.

The aim of the invention is to increase the range of adjustment of the flame parameters. This is achieved by the fact that the choke is made in the form of a cylinder with a tide around the perimeter of the outlet section to form acoustic oscillations with the pipe walls, and the outlet section of the pipe is smoothly expanding.

The drawing shows the proposed burner, a longitudinal section.

It contains I with radial a and axial b holes for gas supply, throttle 2 with tide 3, forming with the pipe I a generator of acoustic oscillations. The outlet section of the pipe I is made smoothly expanding under the grinder.

4-6 and forms with choke 2 in

extended position annular canal-shaped nozzle Laval.

To obtain the shortest flare, choke 2 is set to the extreme left position. The gas supplied to the pipe I through the annular gap in, flows out at supersonic speeds, the flow around the choke 2, is inhibited by tide 5 with the formation of a disconnected shock wave. When this occurs

the self-oscillatory process of periodically emptying cavity A, accompanied by the appearance of shock waves in a jet, emitted into volume B and preceded by

high intensity acoustic waves. pelvic flow rotates 180 in the internal cavity A of the resonator and then, streamlined, the external dimension of tube I merges into volume B with air blown through louver 4 of housing 5. The flow of acoustic energy significantly intensifies the process of mixing gas due to an increase in turbulence, and on the other hand, acting directly on the front of the mountain, increases the heat stress of the flue volume with high combustion stability. The emitter operates in the maximum generation mode at a certain value of the supercritical gas pressure in front of the nozzle (, 5 - 3.5 atm). The length of the plume can increase both with pressure (load) and with constant load. In the first case, when the pressure decreases, the generation intensity drops sharply and, accordingly, the mixing process of the gas and air flows significantly deteriorates, which leads to the elongation of the plume. With increasing pressure, the generation intensity changes relatively weakly and, therefore, the necessary smooth removal of the plume is achieved by moving tide 3 of the moving throttle 2, which serves as the bottom of the resonator of a10 static oscillations. In this case, part of the gas still flows out through apertures a, and part flows through an annular gap between the OUTPUT portion of pipe I and tide 3. With a small opening of throttles 2, when a smaller part of the gas flows out through the annular gap, the intensity is significantly reduced, which impairs the process of mixing gas and air. At a certain throttle position, a generation failure occurs. Further extension of the throttles leads to the fact that the entire gas flow enters through the annular gap, and at the extreme right position of the throttles 2 (see dashed lines) the maximum elongation of the torch is achieved. In this position, the throttle 2 annular channel between the choke and the outlet section of the pipe is a Laval nozzle, and the outgoing supersonic gas jet is very poorly mixed with the air flow. The increase in the torch depth at constant load is also carried out by smoothly moving the throttles to the right side. Before and 3 about the ribs 1. Gas burner containing a pipe with radial and gas holes: D gas supply and throttle moving in axial direction. 6, due to the fact that, in order to increase the control parameters of the torch, the throttle is made in the form of a cylinder a tide around the perimeter of the outlet section to form acoustic oscillations from the tube wall, and the outlet section of the pipe is smoothly expanding. 2. Burner according to Claim I., characterized in that the throttle in its extended position forms an annular channel in the shape of a Lawaln nozzle with the outlet section of the pipe.