RU2732616C1 - Method for soundproofing process pipelines and centrifugal compressors in gallery of superchargers - Google Patents

Abstract

FIELD: oil, gas and coke-chemical industries.

SUBSTANCE: invention relates to sound insulation of pipelines used in oil and gas industry. Technical results achieved by the method implementation are sound insulation of process pipelines and centrifugal compressors in the gallery of injectors with differentiated approach to sound-active elements of pipelines and centrifugal compressors. Technical result is achieved by using method of layer-by-layer installation of most sound-active elements, process pipelines and centrifugal compressors in gallery of injectors, differentiated by noise reduction to required level by means of multilayer structures from elastomer materials based on rubber, at that, sound-insulating effect is achieved due to differentiated insulation of separate sections by alternating layers of elastomeric material of low and high density, where the number of layers is selected taking into account the required reduction of the sound pressure level in the third-octave spectrum of average geometric frequencies from 31.5 to 8000 Hz.

EFFECT: purpose of invention is to increase sound insulation of process pipelines and centrifugal compressors in the gallery of injectors, and consequently to improve operating conditions of personnel of compressor station, provision of convenience of control and operation of process equipment.

1 cl, 1 dwg

Description

The invention relates to the sound insulation of pipelines used in oil and gas and other industries.

There is a known method of soundproofing process pipelines and centrifugal compressors in a gallery of blowers, in which, as a measure to reduce noise, it is provided to equip process pipelines with sound-insulating coatings using a multi-layer structure consisting of bitumen mastic, two layers of linen fabric and a coating of aluminum sheet [AM Angalev, I.F. Egorov, A.I. Martynov, L.I. Sokolinsky. Noise isolation and controllability of ground technological pipelines of gas pumping units. Moscow: "Gas Industry", No. 9, 2011, p. 61-63].

The disadvantage of this method is low efficiency, since the sound-active pipeline is isolated, and the blower continues to emit noise. Soundproofing of the structure is about 3-5 dB A. The coating is not repairable. During prolonged operation in conditions of vibration and exposure to temperature differences, the structure becomes covered with cracks, which leads to a decrease in sound insulating properties and provokes corrosion when moisture enters the pipeline surface through cracks. In the locations of the diagnostic hatches, there is no coating, which also contributes to the formation of corrosion. Without compromising the integrity of the coating layer, the coating interferes with diagnostic measures.

There is a known method of soundproofing process pipelines and centrifugal compressors in a gallery of blowers, in which, as a measure to reduce noise, it is planned to install a soundproof casing to reduce noise from the casing of a gas pumping unit in the typical scheme of which a design of a multilayer fence is provided, equipped with a forced supply and exhaust system for air circulation inside the casing, equipped with a sound attenuator [LLC "VNIIGAZ" STO Gazprom 2-2.1-127-2007 M: LLC "Information and advertising center of the gas industry", 2007, p. 36].

The disadvantage of this method is the restriction of free access to the serviced parts of the gas pumping unit, and when carrying out maintenance and repair of equipment using additional lifting devices, preliminary lifting of the casing and installation on free space or its dismantling is required. The disadvantage is the need for maintenance of the supply and exhaust system.

The joint use of both methods of sound insulation of technological pipelines and centrifugal compressors in the gallery of blowers is not excluded, in which the disadvantages add up.

The closest in technical essence and the achieved result to the claimed method of soundproofing process pipelines and centrifugal compressors in the supercharger gallery, in which it is taken as a prototype as a typical scheme of noise reduction means, is a multilayer structure. The structure consists of an anti-abrasive layer, on which foam glass elements are laid, fastened with metal fastening bands, using a sealant. The structure is covered with a metal casing made of galvanized steel or aluminum sheet [VNIIGAZ LLC STO Gazprom 2-2.1-127-2007 M .: LLC Information and Advertising Center for Gas Industry, 2007, p. 40-43].

The disadvantage of this method is its low practical efficiency. The sound insulation of the structure is about 5-7 dB A. The covering, consisting of hard segments, is not repairable. When exposed to a temperature difference and vibration, the integrity of the structure is violated, the anti-abrasive layer is damaged by foam glass elements, which leads to the penetration of moisture and the occurrence of corrosion on the surface of the pipeline.

The purpose of the claimed invention "Method of sound insulation of process pipelines and centrifugal compressors in the gallery of blowers" is to increase the sound insulation of process pipelines and centrifugal compressors in the gallery of blowers, and therefore - to improve the working conditions of the compressor station personnel, to ensure ease of control and operation of technological equipment.

The technical result is a method for installing sound insulation of process pipelines and centrifugal compressors in a gallery of blowers through the use of layer-by-layer installation of the most sound-active elements of process pipelines and centrifugal compressors, differentiated according to the required noise reduction by multilayer structures made of elastomeric materials based on rubber. At the same time, the sound-insulating effect is achieved due to the differentiated isolation of individual areas with alternating layers of low and high density elastomeric material, where the number of layers is selected taking into account the required reduction in the sound pressure level in the third-octave spectrum of geometric mean frequencies from 31.5 to 8000 Hz.

This goal and the specified technical result is achieved by the fact that the method of soundproofing process pipelines and centrifugal compressors in the gallery of blowers contains a multi-layer, differentiated, sound-insulating structure, which is a sequentially mounted system of materials based on rubber with alternating layers of different density, and forming a double layer , where the K-FLEX ST layer with a density = 45 kg / m ³ , with a thickness of σ = 25 mm is a spongy material with a closed porous structure, and a dense layer of K-FONIK GK with a density of = 2000 kg / m ³ , with a thickness of σ = 2 mm, - an acoustic membrane, while the number of double layers in the insulated areas is determined experimentally, based on the characteristic types and operating modes of the equipment:

two double layers of insulation are installed on the suction and discharge pipelines;

two double layers of insulation are installed on the suction and discharge pipes of the centrifugal compressor;

no sound insulation is installed on the centrifugal compressor casing;

The suction chamber of the compressor is covered with four double layers of insulation;

sound insulation is not installed on the piping of the manometer piping.

The entire process unit consists of sections of acoustic radiation and is conventionally divided into suction and discharge pipelines (1), suction and discharge pipes of a centrifugal compressor (2), a centrifugal compressor casing (3), a suction chamber of a compressor (4), manometer piping (5) (see drawing).

The sound-insulating effect is achieved by differentiated isolation of individual areas with alternating layers of low and high density elastomeric material. The number of layers is selected taking into account the required reduction in the sound pressure level in a third of the octave spectrum of geometric mean frequencies from 31.5 to 8000 Hz.

The multi-layer differentiated sound-insulating structure is a sequentially mounted system of rubber-based materials with alternating layers of different density, forming a double layer. The K-FLEX ST layer with a density of 45 kg / m ³ and a thickness of σ = 25 mm is a spongy material with a closed-porous structure. Layer K-FONIK GK with density = 2000 kg / m ³ , thickness σ = 2 mm - acoustic membrane. The number of double layers in the insulated areas is determined experimentally.

The essence of the invention is illustrated in the drawing of a method for soundproofing process pipelines and centrifugal compressors in a gallery of blowers, where

1 - suction and discharge pipelines;

2 - suction and discharge branch pipes of the centrifugal compressor;

3 - centrifugal compressor housing;

4 - compressor suction chamber;

5 - manometer piping.

Thus, the presented method of soundproofing process pipelines and centrifugal compressors in the compressor gallery allows:

- reduce the noise from the operating unit by 15 dB A, which provides favorable conditions for carrying out repair work at the neighboring unit;

- to provide free access to the process pipeline and centrifugal compressor in the gallery of blowers for servicing and carrying out repair and diagnostic measures without dismantling the sound insulation;

- to prevent the penetration of moisture onto the insulated surface, without provoking the occurrence of the corrosion process, including in technological hatches;

- to ensure the maintainability of the coating by reusing the layers of the material of the soundproofing structure (if necessary).

Claims (1)

A method of soundproofing process pipelines and centrifugal compressors in a gallery of blowers, containing a multi-layer, differentiated, sound-insulating structure, characterized in that the sound-insulating structure is a sequentially mounted system of rubber-based materials with alternating layers of different density, forming a double layer, where the K layer -FLEX ST with density = 45 kg / m ³ , thickness σ = 25 mm is a spongy material with a closed porous structure, and a dense layer of K-FONIK GK with density = 2000 kg / m ³ , thickness σ = 2 mm is an acoustic membrane, at The number of double layers in the insulated areas was determined experimentally based on the typical types and modes of operation of the equipment: for the suction and discharge pipelines - two double layers of insulation; on the suction and discharge pipes of the centrifugal compressor - two double layers of insulation; no sound insulation is installed on the centrifugal compressor casing; the suction chamber of the compressor is covered with four double layers of insulation; sound insulation is not installed on the piping of the manometer piping.

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