SU1601351A1 - Device for controlling periodic withdrawal of oil from well - Google Patents

Abstract

This invention relates to the regulation of high paraffin oil production. The goal is to increase oil production under permafrost conditions by using the energy of the gas released from the reservoir to combat wax deposition and the formation of gas hydrate plugs. For this purpose, a piston 8 is installed on the rod 7 with a deceleration time relay, the rod is made with an axial channel 9. The rod has a check valve 10 located in its lower part, installed with the ability to interact with the control cylinder 2. The device body is made in the form of a relaxation cylinder 11 with a check valve 12, a hydraulic brake chamber with a brake shut-off cavity 14 in the upper part and a return chamber 15, installed successively in its height above the cylinder and the return chamber 15. At the same time, the differential piston 6 is at the lowest position in the cylinder 2 between the channels 3 and 4 for communication with the bore 5. The smaller piston stage 6 is located in the return chamber 15. In the extreme upper position of the piston 6, the cavity of the cylinder 2 is hydraulically connected to the cylinder 11 The piston 8 is located in the deceleration cavity 14. When the piston 8 enters the cavity 14, the piston 6 due to the elastic forces of the gas passes into the cylinder 11 with the valve 12, since the kinetic energy of the gas in the annulus of the well is much greater than the energy of the gas in chamber 15 with equal pressure due to its transfer through channel 9. In This time through the cavity of dropping the annular pressure into the accumulated gas pipe pushes oil from the plume and separator into the metering tank. 1 il.

Description

with an axial channel 9. The rod has a check valve 10 located in its lower part, which is interoperable with the control cylinder 2. The device case is made in the form of a relaxation cylinder 11 with a check valve 12, a hydraulic brake chamber 13 with a brake shut-off cavity 1 in the upper part and a return chamber 15, installed successively in its height above the cylinder 2 and the return chamber 15 In the lowest position, a large differential piston stage 6 is located in the cylinder 2 between the channels 3 and for communication with the bore 5. The lesser steps of the piston 6 are located in the return chamber 15. In the extreme upper position of the Turing 6, the cavity of the cylinder 2 is hydraulically connected to the cylinder 11. The roller 8 is located in the brake shut-off cavity 14. When the piston 8 enters the cavity 14, the piston 6 due to the elastic forces of the gas passes into the cylinder 11 with the valve 12, since the kinetic energy of the gas in the annulus of the well is much greater than the energy of the gas in chamber 15 when the pressure is equal due to its transfer through channel 9 At this time, the annular pressure is pushed through the cavity of the annular pressure into the accumulated tubular gas, which pushes oil from the plume and separator into a closed container. 1 il.

The invention relates to the regulation of the production of high-paraffinized oils and can be used to increase productivity.

wells.

The aim of the invention is to increase the production of oil under permafrost conditions by using the energy of the gas released from the reservoir to combat the deposition of paraffin and the formation of gas hydrate deposits.

traffic jams.

The drawing shows a device for controlling the periodic recovery of oil from wells.

The device comprises a housing 1 with a control cylinder 2 having channels 3 and t for communicating with a well b, inside which the differential piston b with the rod 7 is axially displaced to move axially, the additional piston 8 is mounted on the rod 7 with a braking time relay; with an axial channel 9 and has a non-return valve 10 located in its lower part mounted with the ability to interact with the cylinder 2 of the control, the housing is made in the form of successively installed along its height above the cylinder 2 of the control and the relaxation of the cylinder 11 with a check valve 12, chamber 13, one brake polostyuJi disable audio braking at the top and ka steps 15 return, and in the extreme lower position more stages

the differential piston 6 is located in the control cylinder 2 between channels 5 and 3 for communication with well 5, and smaller in the return chamber 15, in the extreme upper position of the differential piston 6 the cavity of the control cylinder 2 is hydraulically connected with the relaxation cylinder 11, and an additional piston 8 is located in the deceleration space 1. The rod 7 has a sealing stop 1b under the additional piston 8 and the restrictive stop 17.

 The device works as follows.

in a way.

After calling the inflow of carbonated oil from the reservoir to the annulus 18 of the well through channel 3, the device is connected, and channel k connects the device to the pipe space 19 with an elevator and discharge loop through the separator 45 to the gauge tank (not shown). The released gas from the reservoir enters the annulus 18 and increases the pressure. The tube space 19 is open through the discharge train to the separator and the metering tank, and the pressure is atmospheric. Since the pressure in the annular space 18 grows and is higher than in the pipe, it squeezes the oil from the bottom into the pipe space 19. Due to the created depression, the oil enters through the loop and the separator to the measuring tank and then to the consumer. The pressure due to the released gas in the annulus 18 constantly grows and exceeds the pressure in the tube space 19. Tangential stresses at the viscous liquid – oil interface and tubing are directed in the direction opposite to the liquid movement. At this time, due to the difference in the areas of the differential piston 6, when the annular pressure above the pipe is exceeded, the differential piston 6 begins to move, overcoming the auxiliary piston 8, when the additional piston 8 of the hydraulic brake falls into the deceleration cavity H, the differential piston 6 due to elastic forces the gas passes into the relaxation cylinder 11 with a check valve 12, since the kinetic energy of the gas in the annulus 18 of the well is much greater than the energy of the gas in the return chamber 15 the pressure is equal due to its transfer through the axial channel 9c with a check valve 10. At this time, through the cavity, the annular pressure is thrown into the accumulated tubular gas and pushes oil from the loop and separator into the gauge tank. The pressure in the pipe and annular spaces is equalized to the value, while the pressure force in the return chamber 15 does not overcome the force of discharge under the piston 6 in the relaxation cylinder 11 held by the valve 12. When the pressure in the annulus 18 drops to pressure in the pipe tube due to gravity the direction of tangential stresses in viscous oil reverses the sign of the direction. Thereafter, due to the pressure in the return chamber 15, which is held by the check valve 10, the differential piston 6 returns to its initial position in the control cylinder 2. The check valve 10 due to inertia when it strikes the body 1 releases part of the pressure in the chamber 15, and the cycle of operation of the device for regulating the period 15

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Editor V. Bugrenkova

The process of removing fluid from the well is repeated.

Due to alternating tangential stresses in high paraffin oil in the permafrost zone, the internal energy of the rocks increases and the viscosity of the recoverable oil in this zone decreases. As a result, Q well productivity increases.

Claims (1)

Claim 1 A device for regulating the periodic extraction of oil from wells, comprising a housing with a control cylinder, a canal connected to a well, within which the differential piston with a rod is axially displaceablely mounted, characterized in that, in order to increase oil production in permafrost conditions rocks due to the use of energy released from the reservoir gas to control wax deposits and the formation of gas hydrate plugs, it is equipped with additional mounted on the rod a piston with a deceleration time relay; the rod is made with an axial channel and has a check valve placed in its lower part mounted to interact with the control cylinder; the body is designed as a relaxation cylinder installed along its height above the control cylinder of the relaxation cylinder with a hydraulic brake chamber valve the shut-off cavity is closed in the upper part of the return chamber; moreover, in the lowermost position, a large level of the differential piston is located in the control cylinder and between the channels for communication with the wellbore, and smaller - in the return chamber, in the extreme position of the differential piston arrhnem cavity control cylinder is hydraulically communicated with a relaxation cylinder and the auxiliary piston is located in the cavity interrupting braking. Compiled by V. Boryskina Tehred MsDydyk Proofreader M.Sharoshi thirty 35 40 45 50 15 20 25 thirty 35 40 45 50