SU1042778A1 - Separator - Google Patents

Abstract

A separator for separating the liquid particles from the gas stream, containing a cylindrical housing with an axial bore. By means of gas inlet and outlet, a swirler placed at the inlet orifice, a spaced perforated cylinder fixed along the axis of the body is coaxial. installed inside the spacer perfo-. A perforated cylinder with a power turbine, characterized in that, in order to 1stenify the separation process due to more complete use of the dynamic gas flow pressure and decrease its static pressure in the separation zone, it is equipped with an exhaust turbine installed in the output end i perforated pipe, and the power turbine is installed at the inlet end. (L 1C h | sl ch phag1

Description

The invention relates to a technique for separating liquid particles from gas streams and can be used in an oil and gas industry. A separator for separating liquid particles from a gas stream is known, which contains a snapper mounted inside it rotatably with perforation: a pipe and a swirler 3 The disadvantage of this separator is partial backflow of liquid due to its crushing against the wall of the housing. Also known is a separator for separating liquid particles from a gas flow, comprising a cylindrical body with axial holes for gas inlet and outlet, a swirler located in the inlet from the version, a spaced perforated and a lindr fixed along the axis of the body, coaxially mounted inside a perforated cylinder Podshshshikah perforated pipe with power turbine C2J. . The disadvantage of this separator is the low separation silxJIjeKTHBHocTb. The aim of the invention is to intensify the separation process due to a more complete use of the dynamic pressure of the gas stream and a decrease in its static pressure in the separation zone. The aim is achieved by the fact that a separator for separating liquid particles from a stream, comprising a cylindrical body with axial holes for gas inlet and outlet, a swirl ring placed in the inlet hole, a spaced perforated cylinder fixed along the axis of the body coaxially mounted inside the spacer perforated the cylinder on the supports of the perforated pipe with a power tube is equipped with a suction turbine, installed in the output end of the perforated pipe, and the power turbine of the Lena charters at the input m end. FIG. 1 shows the proposed separator, section; in fig. 2 is a section A-A in FIG. The separator consists of a housing 1, a swirler 2 with tangential windows 3, a spreading cylinder 4 With holes 5, inside of which a perforation hole 7 is mounted on the liner 6 with a separating pipe 8 with a fender device 9 fixed inside its end sections of the perforated pipe 8, on the side of the swirler 2, a power turbine is formed, formed by mortise blades 10, and in a fender device 9, an octopus turbine is formed, formed by mortise blades 11. The angles of inclination of the blades 10 and 11 are Targeting turbines are equally directed. The total useful area of the blades of a power turbine is 1.5-2.5 times larger than that of a suction pump. The housing 1 of the separator in the lower part has holes 12 for drainage. The separator works as follows. The gas-liquid mixture, falling on the blades of a power turbine, causes the separation pipe 8 to rotate at a speed close to or greater than the speed of rotation of the flow. Due to the fact that the direction of rotation of the power and suction and the direction of the angles of inclination of the blades are the same, the power turbine will work in the Turbine district (it will transfer the energy of the gas-liquid flow, and the suction will take place in the compressor). reject a stream in front of it, creating a partially discharged section in front of it. After passing the power turbine, the gas-filled liquid enters the perforated part of the separation tube 8, where the particles of the liquid are thrown off by centrifugal forces on the periphery, and the gas, as lighter, p. The inner surface of the spacer cylinder 4 and passing through the openings 5 enters the internal cavity of the housing. in the separation zone and thereby significantly intensify the process of separation of the gas-saturated liquid. When extracting associated gas in the oil fields of Western Siberia, the economic effect due to the additional capture of oil using non-lagging separators will be 735 thousand rubles.

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Claims (1)

SEPARATOR for separating liquid particles from the gas stream, containing a cylindrical body with axial openings for gas inlet and outlet, a swirl placed in the inlet, an expansion perforated cylinder fixed along the axis of the housing, coaxially mounted inside the expansion perforator. of a perforated pipe with bearings in a perforated pipe with a power turbine, characterized in that, in order to intensify the separation process due to more complete use of the dynamic pressure of the gas stream and lowering its static pressure in the separation zone, it is equipped with a suction turbine installed in the outlet end of the perforated pipe , and the power turbi - § on is installed at the input end. mixture inlet 12 5 \\ \ SU „„ 1042778 ΉΖΉΖΖΖΖ ^ ΖΖΖ ^ ΖΖΖΖΖΖΖΖΖΖ OWNER MUCH MERCHANT ’O o o o o o o o o o o o o | ° oo oo oo oo oo oo ----- oooooo - oo - o — 9 — o — ooEZ oo oo ooo oooo oo oo oo O O O O O O O O O O 000 1/6 5 'ZZZZZZZZZE'L gas outlet FIG 1>