SU1451459A1 - Acoustic atomizer - Google Patents

Abstract

This invention relates to a device for spraying various liquids, including heavy fuels, and b. used in the energy, chemical and metallurgical industries. The purpose of the invention is to improve the quality of atomization in a wide range of thermal power control. The conical annular channel (K) 3 is located in a plane perpendicular to the axis of the nozzle, provided at the entrance with an annular ring 4 with holes 5 and connects the output nozzle 2 to the source of the atomizer. The holes are made in the form of tangential K in the zone of forming K 3. K adjacent to one of the generators are oriented in the direction opposite to K adjacent to the other forming K 3. The ring resonator is formed by a nozzle with an external reflector and facing the nozzle exit. With this arrangement, a pulsating mode of flow outflow from the nozzle is created, which, falling into the atomization zone, is crushed under the action of powerful acoustic waves. 4 il. with (L

Description

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This invention relates to devices for

spraying various liquids including

including heavy fuels, and can be used; used in energy, chemical and

; metallurgical industries;

 The aim of the invention is to improve the quality of atomization in a wide range of thermal power control.

FIG. 1 shows a nozzle, a longitudinal section; in fig. 2 - section AA on; FIG. one; in fig. 3 is a section BB in FIG. one; FIG. 4 — node I in FIG. 1. I The acoustic nozzle includes a case I 1 with an output nozzle 2 connected to the source of the nebulizer by means of a conical I ring channel 3 located in the I plane, perpendicular to the axis of the nozzle, I and provided with an annular shell 4 at the inlet with holes 5, and a fuel atomizer 6 I with an external reflector 7, forming an annular resonator 8, facing I towards the output nozzle 2. The holes 5 of the annular shell I 4 are made in the form of tangential: 9 and 10 c channels the zone forming their conical annular channel 3, and the channels 9, digits together with one of the generators is oriented in a direction opposite to the channels 10 adjacent to the other forming a tapered annular channel 3. The resonator 8 is provided in the diffuser 11.

The nozzle works as follows.

The atomizer enters the confused annular channel 3 through the tangential channels 9 and 10, in which the arch-flow is converted into two flows in opposite directions. In the output nozzle 2, as a result of the collision of flows, there is a sharp deceleration accompanied by a jump-like increase

static pressure in the jet and formation of a nebulizer flow, the velocity vector of which has only an axial component. Next, the nebulizer enters the resonator 8, where a powerful shock wave is generated, which propagates into the surrounding space and interrupts the nebulizer stream flowing from the nozzle 2, resulting in a pulsating mode of its flow.

The fuel from the atomizer 6 enters the atomization zone, where it is ground under the action of powerful acoustic waves. The final formation of the dispersed composition of the plume occurs during the flow of fuel and the sprayer spent in the cavity 8 along the surface of the diffuser 11.

Claims (1)

Invention Formula An acoustic nozzle comprising a housing with an output nozzle connected to the atomizer source via a conical annular channel located in a plane perpendicular to the axis of the nozzle and provided with an annular ring with holes at the inlet, and a fuel atomizer with an external reflector forming an annular resonator facing to the output nozzle, characterized in that, in order to improve the quality of atomization in the wide range of thermal power control, the openings of the annular shell are made in the form of tangent cial channels in the zone of forming the tapered annular channel, wherein the channels adjacent to one of the generators is oriented in a direction opposite to the channels adjacent to the other generatrix of the conical ring channel. (rig.1 Jj Н1 70 fffd / g3