CS203048B2 - Device for damping the noise brought about by releasing the gases in the atmosphere - Google Patents

Abstract

A device for attenuating the noise generated by the expansion into the atmosphere of the gases an industrial installation.

Description

(54) Noise-damping devices caused by the release of gases into the atmosphere

BACKGROUND OF THE INVENTION The present invention relates to a device for attenuating noise caused by the discharge of gases into the atmosphere, comprising at least two superimposed sections provided with sound absorbing linings, a diffuser, a gas supply line, a damping bottom and a stand.

There are known dampers in vacuum blades, which achieve noise attenuation by bending sound waves when passing through a system of vacuum blades. The absorption of the bent waves is achieved by a sound absorbing lining embedded in the system blades and by increasing the vortex mixing of the elemental sound streams leaving the vacuum vane system with ambient air, resulting in a change in flow direction due to the effect of gas or any fluid at all it exits under pressure from the tank through a slot behind which a wall is arranged in the outlet direction, continuing either continuously according to the profile or intermittently according to the profile of the polygon formed by the surfaces of the polygon · Gas leaving the slot tends to cling to the extended wall of the slot fluidum.

This effect, referred to in the technical literature as the Coanda effect, creates a vacuum zone on the blades in which the vacuum can reach 30 to 40 kPa under certain circumstances, the fluid flow can bend up to 200 ° in the blade direction and the amount of fluid carried The ambient temperature can be increased many times over the amount of entrained gas flow. *

However, these silencers, while achieving strong noise attenuation over a wide frequency band, have the disadvantage of occupying a large building area and being extremely complex.

20304 $

Noise damping devices are also known with tapered air intake nozzles connected to an inlet silencer of a prescribed cross section, with an internal type ejector to which a diffuser, an outlet silencer and an exhaust nozzle are connected. · Ejector of the internal type is provided with an annular cavity into which the exhaust gases pass and pass through the annular gap, abutting the wall of the tapering part of the ejector, becoming annular in shape and bending in the throat towards the lower part of the diffuser , to the output silencer and the exhaust nozzle. The main components of the silencer are fitted with sound absorbing walls.

A disadvantage of this device is the complexity of the construction associated with the formation of the annular slot. Another disadvantage of this device is its large construction area and high weight.

The present invention is based on the fact that an ejector having an external profile, comprising a pedestal, over which a spherical ring-shaped body having an external profile, is arranged, is located inside the sections. an annular cavity into which a gas supply conduit opens and which is connected to an annular gap formed between the pedestal and the ejector body, and a hollow cone abutting said ejector body.

The noise-damping device of the present invention has a number of advantages over conventional similar devices in that it greatly attenuates sound over a range of audible frequencies, occupies a smaller building area, is lighter in weight, is safe to operate, and has a virtually unlimited service life. In addition, it allows a uniform flow of the medium to be added, in particular of atmospheric air and of the vortex mixture supporting the attenuation.

The attached drawing shows an example of one embodiment of the device according to the invention in vertical section.

The device according to the invention consists of an ejector 6 with an external profile, which is located inside the cylindrical sections arranged one above the other and fixed to each other. In the illustrated embodiment, the lower section & к attached an upper section 2 »D® connected ^on £ diffuser. The lower section 2 is circumferentially provided with an annular open space indicated by an arrow

12. through which 8e _f draws in ambient air. Below the bottom section 2 of the apparatus is positioned at a distance damping bottom 2 ^{and C0} treatment device is attached to the support frame 2 к · Damping bottom 2 ^{and a} supporting stand 2 contribute к damping the noise produced by impact on fluid ejector £ 8 external profile.

The outer profile ejector 6 comprises a base 2 above which a spherical-shaped outer profile body 2 is provided, provided with an annular cavity 13. between the pedestal ^{28 of the} ejector body ⁸ having an external profile. A hollow cone 60 engages from above on the ejector body 8 with the outer profile.

The dimensions of the device, in particular the lower section 2, the upper section 2 of the ejector 6 with external profile, and the diffuser 6, the thickness and composition of the wall cladding of the lower section 2 and the upper section or other sections depend on the sound structure, .

The shape and dimensions of the damping base 2 as well as its sound-absorbing liner are governed by the same factors as the diverging wall diffuser.

The exhaust gases are fed to the device according to the invention via a duct 11 with a rounded inner and outer surface in order to achieve a minimum flow resistance and to prevent noise.

The pipe 44 is lined with sound absorbing material up to the height of the lower section 2.

The device for attenuating the noise caused by the discharge of gases into the atmosphere works as follows:

The gases to be discharged into the atmosphere are controlled via a duct 11 into the annular cavity 13 of the ejector 1 with an external profile and from there pass through the annular slit Ϊ4 in the form of an annular thin stream.

Due to the effect of the above-described effect, a thin annular current abuts against the outer profile 2 of the ejector J with the outer profile, bending and strongly sucking air from below.

If the discharged gases are very hot, they cool down rapidly by mixing with ambient air drawn in. The velocity of the gas mixture advancing between the walls of the upper section J ^{e of the} hollow cone 10 is continuously slowed relative to the gradually expanding cross sections of the upper section J.

This reduction in output velocity continues up to the diffuser Д.

Bend the gases in the annular gap 14 has the effect of changing the structure of the noise produced by jet by moving the acoustic spectrum in the high and very high frequencies, simultaneously changes the direction of the noise caused by the gas stream monitor spherically shaped profile 2 »inner lining the walls of the upper section 2 ^{and the} surface of the hollow cones 10.

As a result, the acoustic energy of the impacting waves dissipates rapidly and the noise transmitted by the device is greatly reduced »

Also, the strong compression at the top of the annular slot 14 of the ejector j, with the outer profile, makes it difficult to propagate the acoustic waves caused by the current in this direction. Since the velocity of the stream even under the annular gap is constantly slowing and this slowing continues to the diffuser Д, the discharge of the mixture into the atmosphere is practically noiseless.

Claims (1)

SUBJECT OF THE INVENTION An apparatus for attenuating the noise caused by the discharge of gases into the atmosphere, comprising at least two superimposed sections provided with sound absorbing linings, a diffuser, a gas supply line, a damping bottom and a support stand, characterized in that within the sections (2, 3) an ejector (1) having an outer profile (7) is disposed, above which a body (8) with a spherical ring-shaped outer profile (9) is provided, provided with an annular cavity (13) into which the mouth of the supply conduit (11) and which is connected to an annular slot (14) formed between the base (7) and the ejector body (8) with the outer profile and a hollow cone (10) abutting from above on the body (8).