SU684131A1 - Byrass valve - Google Patents

Description

(54) TRANSFER YU1APAN

The invention relates to downhole equipment for packer gas and oil wells and can be widely used in the oil and gas industry to meter corrosion or hydrate inhibitors from the annulus into the tubing string and to seal off the annulus well above the annulus at valve level. A bypass valve is known, comprising a housing with axial and radial channels, inside which a shut-off element and ball valves 1 are located. In the valve body there are spring-loaded non-return ball valves that allow the inhibitor to be dispensed from the annulus into the cavity of the pump-compressor tubes. The bypass ports of the check valves are located radially and have a very small diameter, so they are easily clogged, and the manufacture of check valves is associated with considerable difficulties. In addition, when dosing, the entire flow of inhibitor flows around the balls of check valves, which drives the {1 t to their erosion wear and reduces the reliability of blocking the openings in the case of excess pipe pressure above the annular pressure. The bypass valve has a special bushing inside the body, blocking the bypass holes when pressing the packer. Promotion of the sleeve to open the bypass holes after crimping is carried out using special rope technology, which requires the installation of a lubricator and the presence of a winch with a set of percussion instruments. A bypass valve is known, comprising a housing with axial and radial channels, a locking element and a diaphragm 2. This valve is closest to the invention in its technical essence and the result achieved. The disadvantage of the valve is low reliability. The purpose of the invention is to increase the reliability of the valve.

The goal is achieved by the fact that an additional channel associated with the radial channel is made in the housing at an angle to its axis, in which a stop element and a diaphragm are installed, and the diaphragm forms a cavity with the housing, communicating with the annulus of the well.

In the cavity formed by the diaphragm and the housing, a strainer can be installed.

The drawing shows the bypass valve, longitudinal section,

The valve includes a housing 1 with axial and radial 2 and 3 channels, a locking element 4 spring loaded 5. In the housing 1 an additional channel b is made at an angle to its axis, in which a spring-loaded locking element 4 and a diaphragm 7 placed between the upper 8 and lower 9 bushings. The diaphragm 7 forms with the housing 1 a cavity 10 communicating with the annulus of the well through the channel 3. A mesh filter 11 is installed in the cavity 10. The channel 2 is intended to exit the liquid into the lifting pipes.

The bypass valve works as follows ..

The valve is lowered into the well on the lifting tubing string with diaphragms installed in the bypass holes 7. The packer is pressed through the annulus (after its installation) at pressures below the destruction of the calibrated diaphragms.

When the packer is tight, the pressure in the annulus is increased to the calculated value for the destruction of the diaphragms. After the diaphragm is destroyed, the valve is ready for operation. For a given pressure drop. between the annulus and pipes, the inhibitor through the valve 3 of the housing 1 and the screen filter 11 enters the bypass holes, pushes the locking element 4 and the spring 5 of the non-return valve inwards, which prevents the balls and the spring from erosive wear. Through the channels 2, the fluid passes into the cavity of the tubing.

In the case of stopping the pump, -; inhibitor, the pressure in the tubing becomes higher than the pressure in the tube and the check valve balls block the bypass holes, preventing the annulus from passing gas into the tubing.

An overflow valve improves the reliability of operation of deep packer wells when the inhibitor is dispensed from the annulus.

into the cavity of the lifting tubes and provides a wide flow area. The presence of destructible calibrated diaphragms makes it possible to pressurize the annulus of the wells, and the installation of the filter prevents clogging of the bypass ot-. Versions.

Claims (2)

1. A bypass valve comprising a housing with axial and radial channels, a shut-off element and a diaphragm, characterized in that, in order to increase the reliability of the valve, an additional channel connected to the radial channel is installed in the housing at an angle to its axis , a locking element and a diaphragm, and the diaphragm forms a cavity with the body in communication with the annulus of the well. 5 2. Valve according to claim 1, characterized in that a mesh filter is installed in the cavity formed by the diaphragm and the housing. Sources of information taken in Q attention during examination 1. Technical specifications of Biker equipment used in the Soviet Union. Model L sliding nipple, p. 4, 1971. 2. Yakovlev K. G. and. other well equipment for the production of gas containing aggressive components. Scientific and technical review. Ser. Development and operation of gas and gas condensate fields. VNIIEgazprom, M., 1974, p. 13-15.