SU1321855A1 - Noise silencer - Google Patents

Abstract

This invention relates to exhaust systems of a test bench of a power plant. The purpose of the invention is to increase the efficiency of the silencer. The output section (WU) 4 is installed with the possibility of axial mixing and is made in the form of a conical socket 6 with perforated walls. WU 5 is made with a tapered bevel 7 of the outer surface, and WU 4 and 5 are installed coaxially with the formation of an annular gap 8. The specified calculated value of the hydraulic resistance of the silencer is provided by mixing WU 4 to the left and correspondingly increasing the size of the gap 8. The perforation reduces the gas velocity in the gap 8. 1 Il. oo o 00 SP cl

Description

The invention relates to mechanical engineering, in particular, to silencers of noise, superior, of course, the exhaust system of the test bench of a power plant.

The aim of the invention is to increase the efficiency of the silencer by adjusting the flow resistance.

The drawing shows a diagram of the silencer noise.

The silencer contains an input patrol of the silencer by moving the output section to the left and a corresponding increase in the size of the annular gap b.

When testing power plants with a calculated backpressure value (which ensures the hydraulic resistance of the silencer at the stand) of more than 0.5 atm, a high gas velocity develops in the annular gap 8, which can become a source

side 1, two separation pipelines 2 10 noise. To liquidate this effect on and 3, equipped with the first 4 and second 5 high walls of the conical socket 6,

perforation holes that reduce the gas velocity in the annular gap 8.

the entrance sections directed towards each other, the first output section 4 being installed with the possibility of axial movement and made in the form of a conical socket 6 with perforated walls, and the second section 5 made with a conical bevel 7 of the outer surface. The exit sections 4 and 5 are mounted coaxially with the formation of an annular gap 8 of a constant cross section, i.e. the inner surface of the socket 6 and the outer surface of the bevel 7 are equivalent. The outlet section 4 of the separation pipe 2 is connected with the last threaded connection 9 and is provided with a lock nut 10.

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perforation holes that reduce the gas velocity in the annular gap 8.

High accuracy of adjustment of the hydraulic resistance of the silencer to the specified design value is provided by a sufficiently small angle a of opening of the socket 6. At the same time, the axial displacements of the output section 4 correspond to a change in the gap 8 several times smaller (X sina-6).

The minimum angle a is limited by the axial dimensions of the silencer. In addition, the range of axial displacements of the output section 4-X must lie in the noise muffler operates in the following part of the length of the conical section of the socket

6-a, since with further movement of the socket 6, the efficiency of the silencer operation sharply decreases due to the worsening of the mix of oncoming exhaust gas flows.

at once.

When testing the power plant at the nominal power (flow rate) mode, the exhaust gases enter the inlet nozzle 1 and, through the separation pipes 2 and 3, are directed by two streams towards each other, mixed and expire through the annular gap 8 and the perforation opening of the socket 6 into the surrounding space. A predetermined calculated resistance of the silencer is provided with a size b in the annular gap 8, is set by moving the output section 4 along the thread 9 and is fixed with a lock nut 10. Further testing of the power unit for the afterburner and reduction is carried out at a constant gap b, i.e. at the design value of the hydraulic resistance of the muffler.

If it is necessary to test another power plant with a different nominal value of power, for example, larger than in the first case, the specified calculated value of the hydraulic power of the silencer is provided by moving the output section to the left and a corresponding increase in the size of the annular gap b.

When testing power plants with a calculated backpressure value (which ensures the hydraulic resistance of the silencer at the stand) of more than 0.5 atm, a high gas velocity develops in the annular gap 8, which can become a source

noise. To liquidate this effect on the wall of the conical socket 6,

perforation holes that reduce the gas velocity in the annular gap 8.

High accuracy of adjustment of the hydraulic resistance of the silencer to the specified design value is provided by a sufficiently small angle a of opening of the socket 6. At the same time, the axial displacements of the output section 4 correspond to a change in the gap 8 several times smaller (X sina-6).

The minimum angle a is limited by the axial dimensions of the silencer. In addition, the range of axial movements of the output section 4-X must lie within the length of the conical section of the socket

 the length of the conical section of the socket

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6-a, since with further movement of the socket 6, the efficiency of the silencer operation sharply decreases due to the worsening of the mix of oncoming exhaust gas flows.

Claims (1)

Invention Formula 35 A silencer, predominantly the exhaust system of the test facility of the power plant, contains an inlet and two dividing lines, equipped with first and second output sections directed towards each other, characterized in that, in order to increase efficiency by adjusting the flow resistance, the first output the site is installed with the possibility of axial displacement and is made in the form of a conical socket with perforated walls, and the second is made with a conical bevel the outer surface, and the output sections are installed coaxially with the formation of an annular gap. 45 10 9 tf B