SU1507998A1 - Method of damping gas flow noise - Google Patents

Abstract

The invention relates to a power engineering industry and makes it possible to increase the efficiency of noise suppression of a broadband noise of a gas stream with a varying continuous spectrum of vibration frequencies. Noise is suppressed by passing a gas stream through resonating volumes, which are foam layers 11 formed by gas bubbles during the interaction of gas and water flows on partitions 4 entering the device case 1 through the inlet pipe 2 and nozzle 5, respectively, and inter-foam volumes 12 The adjustment of the thicknesses of the foam layers 11 and the size of their bubbles (resonating volumes) by changing the ratio of the flow rates of gas and water is carried out using a gas flow noise sensor 8, a water supply regulator 9, and Mechanical Protection crane 10. 1 yl.

Description

The invention relates to mechanical engineering, in particular to power engineering, in particular to methods of jamming gas flow noise, mainly gas turbine installations.

The aim of the invention is to increase the efficiency of noise suppression of wide-band noise with varying vibration frequency spectrum.

The drawing shows a device for implementing the proposed method, a longitudinal section.

A device for implementing the method comprises a vertically mounted housing 1 with an inlet 2 and an exhaust 3 with nozzles, transverse partitions 4 made in the form of horizontal grids, a water nozzle 5 installed in the zone of the outlet nozzle 3 and connected to the water inlet line 6, a drain nozzle 7, installed at the lower point of housing 1, as well as an adjustment system consisting of a gas flow noise sensor 8, a water flow regulator 9 and an electromechanical tap 10 in the water supply line 6.

The method is as follows.

Exhaust gases enter through corpus nipple 2 into corpus I, where they are stretched and rush into the upper part of corpus 1, are throttled through transverse partitions 4. Water is supplied through corpuscle B and through water nozzle 5 transverse partitions 4; moreover, due to the gas-dynamic interaction of gas and water etocs, dynamically stable foam layers 11 are formed on the latter, separated by inter-foam volumes 12.

Foam layers 11 are formed from a plurality of groove bubbles with a wide range of sizes, which, like closed interfoam volumes 12, are resonant volumes absorbing the energy of sound vibrations. Since the sizes (volumes) of bubbles continuously change due to the pressure of the cobalt and the change of gas-dynamic parameters on the partition, ka 4, this ensures that the sound is damped.

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oscillations with a wideband continuous frequency spectrum. With the passage of the gas stream through the inter-foam volumes 12, absorption of the long wave components of the spectra takes place.

The effectiveness of PM1 is significantly enhanced by adjusting the thickness of the foam layers 12 and the size of the resonating volumes by changing the ratio of gas and water flow rates in the range from 50 to 500 m of gas / m3 of liquid provided by the control system (pos. 10, 11, 12). ). At the same time, the relative area of the flow area (open area) of the transverse partitions 4 is 0.1-0.5. When changing the flow rate and, accordingly, the noise of the gas flow measured by the sensor 8, the regulator 9 changes the water flow by means of the valve iO, thereby changing the ratio of the flow rates of gas and water. Changing the ratio of costs allows you to change the thickness of the foam layers 11, therefore, the inter-foam volumes, 1 12, and also the amount and size of gas bubbles.

Adjusting these parameters allows for effective (optimal) noise suppression of the wide-band noise of a gas stream with a varying continuous spectrum of vibration frequencies by tuning the device to a specific frequency spectrum.

Claims (1)

Invention Formula The method of suppressing the noise of the gas stream, mainly gas turbine plants, by passing the gas stream from the bottom up through the perforated partitions and supplying water towards the gas stream with the formation of foam layers on the partitions, separated by internum volumes, in order to increase the Q efficiency of sound suppression of broadband noise from varying continuous frequency spectrum of oscillations, regulates the thickness of the layers and the size of their bubbles by changing the ratio of the flow rates of gas and water . five 0 five