SU1303180A1 - Apparatus for making homogeneous gas and liquid flow - Google Patents

Abstract

The invention relates to devices used in the field of oil and gas production for transporting liquid from gas wells, and allows an increase in gas flow rate due to a decrease in pressure loss in elevator tubes. The device for creating a homogeneous gas-liquid flow consists of dispersants 1 in the form of funnel-shaped nets with central openings installed in the lift pipes 2 at equal distances from each other. An acoustic oscillator 3 is installed in the lower part of the pipes 2. Made of two membranes 4, having the shape truncated 1 x cones with vertices directed naacTjie to each other, and separated resonantly, it has a cavity 5. Dispersants 1 are fixed in pipe couplings () and turned to the narrow part of the generator of acoustic oscillations 3. I and.ch. "E CO O with 00 4 4

Description

The invention relates to the extraction of gas and oil, in particular to the movement of gas-liquid mixtures in the risers of wells, and is intended to intensify the removal of fluid (water and hydrocarbon condensate) from gas wells.

The aim of the invention is to increase the gas flow rate by reducing the pressure loss in the lift pipes.

The drawing schematically shows the proposed device.

The device for creating a homogeneous gas-liquid flow consists of dispersants 1 in the form of partitions, having the form of funnel-shaped nets with central openings installed in the lift pipes 2 at equal distances from each other. An acoustic oscillator 3 is installed in the lower part of the pipes 2, which consists of two membranes 4, having the shape of truncated cones with vertices facing each other, and separated by resonant core 5. Disnergators 1 are fixed in the coupling joints of pipes 6 and are facing narrow part of the generator of acoustic oscillations 3. The angle of inclination to the direction of flow is about 45 °. The width of the grid cells is chosen from the conditions for the formation of a canel of the required size.

Dienergator works as follows.

When the gas-liquid mixture passes through the sound | -generator 3, ultrasonic oscillations occur, which depends on the properties of the membranes 4. Under the influence of the ultrasonic vibrations of the narrow edge of the upper membrane, it begins to vibrate, resulting in a disnergation of the liquid phase. The size of the liquid droplets depends on the frequency of the generated oscillations and their intensity, as well as on the physicochemical properties of the liquid. The location of the upper membrane under y | Scrap to the direction of the flow prevents the formation of stagnant zones but the path of movement of the flow behind the membrane and removes the flow of liquid to the center of the hole, where it is filled with gas and crushed.

When raising the gas-liquid mixture in the lift pipes, the enlargement of the liquid canal and the partial separation of the KOMHOHoiri nogpka occurs. E. 1I provide (D11) - the native highly dispersed structure of the gas-liquid mixture all the way from the intake to the wellhead are the mesh dispersers 1 installed in the lift pipes 2. The mesh disperser prep ULBHTC-OL. t. Krug.chova

Editor N. Gorvattehrsl I. VeresKorrektor M. (am.boyska / i

Order 1241/7 Circulation 56 (Yodpienoe

5IIII11I State Committee C (, CP and inventions and oi KfiijiTii. I

I 130.35; Moeva W - 35. Raushsk nab. D. 4/5 Proi: (vodstneino-1 o.-i1 | -rafichs (: something enterprise. Uzh1CH) born. St. (Rokt1, h, 4

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It prevents the passage of large drops of liquid, and the surface of the grid, due to gas oscillations caused by a sound generator, continuously vibrates. As a result, when liquid droplets are placed on a mesh disnergator, they are intensively crushed. In addition, the location of the mesh dispersers mode with an angle to the direction of the flow also prevents the formation of a near-wall layer of liquid, which, on the vibrating surface of the grids, translates into: 1 dispersed state. At the same time, mesh disnergators have virtually no effect on pressure losses in lift pipes.

As a result of the application of a pre-dispenser, a disaggregator reduces the loss of weight.; 1 in the dispersion nodes, since only one tapering device is installed in the under / cay part of the tubing string, and the pressure loss in the mesh discs - the pressure regulators are insignificant, the volume of the required number of narrowing devices, in which considerable pressure is present, the degree of fraction increases; the amount of liquid in the gas, since the grids are more efficient liquid disintegrants than Junction devices in the form of diaphragms (partitions with an axial channel, and the dispersion of the liquid is due to the joint hydrodynamic and sound effects on the gas-liquid note. All the reduction in pressure loss in the tubing string increases flow rates i and condensate and condensate A period of stable operation of a gas well is expected during the application of a liquid in a gas stream.

Claims (1)

Invention Formula A device for creating uniformly a liquid-liquid stream, predominantly in the lift pipes of wells, containing dispergators in the form of partitions with centrifugal orifices, is usganov; characterized in that. In order to increase the i-flow rate by reducing the pressure loss in the lift pipes, it is equipped with an acoustic acoustic generator installed in the lower part of the pipes and made of two membranes in the form of a truncated 1 H) 1X cone with | 1c; h us | 1. 1 to meet each other. i of the resonant cavity, and the wands are made in the form of funnel-shaped nets, facing narrow to the acoustic coupling generator.