RU61339U1 - DEVICE FOR LIQUID INJECTION OF A WATER LINE IN A WELL LINE IN AN OIL LINE - Google Patents

Abstract

The proposal relates to techniques and technologies for cyclic fluid injection into an oil-bearing formation during its flooding or injection of various reagents into it. The installation for pumping fluid from the aquifer of the well into the oil reservoir works countercurrently to two wells, in each of which the pump is made in the form of a submersible sucker rod pump installed above the suction valve as part of a pipe string additionally equipped with a channel through which the over-piston cavity of the pump is communicated with oil reservoir. The piston cavity of the pump through the suction valve is in communication with the aquifer. A cylinder with a piston is placed at the mouth of each well, while the cylinder is rigidly fixed relative to the pipe string, and the piston is rigidly connected to the pump drive from below. The piston cavities of each of the cylinders are hydraulically connected to the corresponding hydraulic cylinder cavities, separated by a drive piston, and filled with a working fluid, while the hydraulic cylinder is located on the surface, and oil is used as the working fluid. In the proposed installation for pumping fluid from the aquifer of the well into the oil reservoir, a deep-well pump (submersible sucker rod) is installed directly in the interval of the aquifer and oil reservoir of the well, which improves the efficiency of the pump. The installation allows you to save electricity, as the pump drives operate in the opposite direction, which makes it possible to work in a regenerative mode with the release of electricity to the field network. 1 ill. for 1 liter

Description

The proposal relates to techniques and technologies for cyclic fluid injection into an oil-bearing formation during its flooding or injection of various reagents into it.

A known method of pumping water into an oil reservoir (copyright certificate No. 283120, E 21 B 43/00, publ. BI No. 31 dated 10/06/1970), carried out using the installation for pumping fluid into a reservoir containing a packer, tubing string pipes (tubing) and capacity, communicating with an electric centrifugal pump.

The disadvantages of this design are:

firstly, the waterproof winding of the electric motor when filling the stator with water has sufficient performance only at a low water temperature, not more than + 25 ° C. Increasing the water temperature to 35-45 ° C significantly reduces the service life of the motor winding, and at a higher temperature the motor loses its functionality;

secondly, the electric centrifugal pump is in an aqueous medium under high pressure, which worsens its operating conditions, while dissolved salts destroy the cable, reducing its service life.

The above reasons reduce the durability of the installation as a whole, in addition, with the help of such an installation it is impossible to pump chemically aggressive reagents into the oil reservoir, for example acids (hydrochloric, nitric, etc.), while the installation continuously pumps liquid into the reservoir with practically no change in the injection pressure, which contributes to the occurrence of an obliteration layer in the capillary holes and cracks of the formation, which constantly reduces the injectivity of the well, sometimes until the liquid is completely stopped.

Closest to the proposed technical solution is the installation for pumping fluid into the reservoir (copyright certificate No. 729336, E 21 B 43/00, 1986 published. BI No. 15 of 04.25.1980), containing a packer, tubing string and capacity, communicating with the pump, while it is equipped with discharge and suction valves installed on the tubing string located lower and higher, respectively, of the packer, the upper cavity of the tubing string and the container being partially filled with oil.

The disadvantages of this device design are:

firstly, the oil located in the tubing string and used as a working fluid to drive the fluid injected into the reservoir, during operation loses its chemical and physical properties due to contact and mixing with the fluid injected into the reservoir, and therefore during the operation of the installation, constant and strict control of the chemical composition of the oil is required;

secondly, the oil has a higher density compared to the injected fluid, and therefore requires large amounts of electricity to power the electric motor to drive the oil in the tubing string;

thirdly, the pump is made in surface design, and therefore, the lower the reservoir pressure and the lower the aquifer is from the surface, the lower the efficiency of its use.

The technical task of the utility model is to increase the efficiency of the installation and reduce the cost of electricity consumed.

This problem is solved by the installation for pumping fluid from the aquifer of the well into an oil reservoir containing a packer, a pipe string with a suction valve, a pump.

What is new is that the installation works in the opposite direction to two wells, in each of which the pump is made in the form of a submersible rod pump installed above the suction valve as part of a pipe string, additionally equipped with a channel through which the nadporshne cavity of the pump is in communication with the oil reservoir, the piston cavity of the pump through the suction valve is in communication with the aquifer, and at the mouth of each of the wells placed a cylinder with a piston, while the cylinder is rigidly fixed relative to the pipe string, and then Shade bottom rigidly connected with the pump drive, with the subpiston space each of the cylinders is hydraulically communicated with the respective cavities of the hydraulic cylinder, is divided between the drive piston and filled with hydraulic fluid, wherein the hydraulic cylinder is situated on the surface, and oil is used as working fluid.

The figure schematically shows the proposed installation.

Installation for pumping fluid from the aquifer 1 and 1 'of the well 2 and 2' into the oil reservoir 3 and 3 ', respectively, contains a packer 4 and 4', a pipe string 5 and 5 'with a suction valve 6 and 6' and a submersible rod pump 7 and 7 '. Each of the submersible sucker rod pumps 7 and 7 'consists of a cylinder 8 and 8', a piston 9 and 9 'with through holes 10 and 10' and a valve 11 and 11 ', respectively.

Submersible sucker rod pump 7 and 7 'is installed above the suction valve 6 and 6' in the pipe string 5 and 5 '. Each of the pipe string 5 and 5 'is additionally equipped with a corresponding channel 12 and 12', through which the over-piston cavity 13 and 13 'of the submersible rod pump 7 and 7' is in communication with the oil reservoir 3 and 3 ', while the under-piston cavity 14 and 14' of the submersible the sucker rod pump 7 and 7 'through the corresponding suction valve 6 and 6' in communication with the aquifer 1 and 1 ', respectively. The drive of the submersible sucker rod pump 7 and 7 'is made in the form of a column of sucker rods 15 and 15', respectively.

At the mouth of each of the wells 2 and 2 ', a cylinder 16 and 16' is placed with a piston 17 and 17 ', while the cylinder 16 and 16' is rigidly fixed relative to the pipe string 5 and 5 ', respectively. The piston 17 and 17 'is located in the cylinder 16 and 16' hermetically and rigidly connected to the bottom drive of the submersible sucker rod pump 7 and 7 ', made in the form of a column of sucker rods 15 and 15'.

Piston cavities 18 and 18 'of each of the cylinders 16 and 16' are hydraulically in communication with the respective cavities 19 and 19 'of the hydraulic cylinder 20.

The cavities 19 and 19 'of the hydraulic cylinder 20 are separated by a drive piston 21 and filled with a working fluid, which uses oil (for example, mineral oil). The hydraulic cylinder 20 is located on the day surface.

To eliminate pistoning during the movement of the pistons 17 and 17 'in the cylinders 16 and 16', respectively, technological holes 22 and 22 'are made in the upper part of the cylinders 16 and 16', respectively.

The drive of the submersible sucker rod pump 7 and 7 ', made in the form of a column of sucker rods 15 and 15' works in the opposite direction, that is, when the string of sucker rods 15 up, the string of sucker rods 15 'moves down and vice versa.

Installation works as follows:

Before starting the installation into operation, at the mouth of each of the wells 2 and 2 ', cylinders 16 and 16' are installed and rigidly fixed to the pipe string 5 and 5 ', having previously connected the drive of the submersible rod pump 7 and 7', made in the form of a column of pump rods 15 and 15 ', respectively, with pistons 17 and 17' of hydraulic cylinders 16 and 16 '. The space between the cylinders 16 and 16 'and the string of pump rods 15 and 15', respectively, is sealed at the wellhead 2 and 2 '.

The cavities 19 and 19 'of the hydraulic cylinder 20 are proportionally filled with a working fluid - oil, and the stroke of the drive piston 21 in each direction is selected depending on the stroke length of the sucker rods 15 and 15' in the cylinders 16 and 16 ', which are determined by the design dimensions of the latter. For example, in the starting position

the piston 17 is in the cylinder 16 in the lower position, and the piston 17 'is in the cylinder 16' in the upper position, while the drive piston 21 of the hydraulic cylinder 20 is in the extreme right position. When the piston 17 'is located in the cylinder 16' in the upper position, the piston cavity 14 'of the submersible rod pump 7' is filled with fluid from the aquifer 1 'through the suction valve 6' of the submersible rod pump 7 ', while the valve 11' of the piston 9 'is closed.

On the surface, the driving piston 21 of the hydraulic cylinder 20 is driven, giving it axial movement to the left, while the working fluid from the cavity 19 of the hydraulic cylinder 20 is pumped into the piston cavity 18 of the cylinder 16, causing the piston 17 to move upward, and since the piston 17 of the cylinder 16 is rigidly connected to the string of pump rods 15, which in turn is also rigidly connected from below to the piston 9 of the submersible rod pump 7, then the piston 9 together with the string of pump rods 15 are moved up.

Moreover, during the movement of the piston 9 upward relative to the cylinder 8 of the submersible rod pump 7, fluid is sucked from the aquifer 1 through the annulus of the borehole 2 above the packer 4 into the under-piston cavity 14 of the submersible rod pump 7, while the suction valve 6 is open and the valve 11 of the piston 9 is closed, as a result of which the sub-piston cavity 14 of the submersible rod pump 7 is filled.

Simultaneously with the process of lifting the string of pump rods 15 in the well 2 and displacing the working fluid from the cavity 19 of the hydraulic cylinder 20 into the piston cavity 18 of the cylinder 16, the working fluid flows from the piston cavity 18 'of the cylinder 16' into the cavity 19 'of the hydraulic cylinder 20, with the piston 17' moves down, and with it down moves the column of sucker rods 15 'with the piston 9'.

When the piston 9 'is moved down relative to the cylinder 8' of the submersible rod pump 7 ', the internal space of the piston 9' is filled with liquid from the piston space 14 'of the submersible rod pump 7', while the suction valve 6 'is closed and the valve 11' of the piston 9 'is open .

The processes described above continue until the drive piston 21 of the hydraulic cylinder 20 reaches the leftmost position, with the piston 17 located in the cylinder 16 in the upper position and the piston 17 'located in the cylinder 16' in the lower position.

Then, the direction of movement of the drive piston 21 of the hydraulic cylinder 20 is changed, giving it an axial reverse (right) movement, while the working fluid from the cavity 19 'of the hydraulic cylinder 20 is pumped into the piston cavity 18' of the cylinder 16 ',

causing the piston 17 'to move upward, and since the piston 17' of the cylinder 16 'is rigidly connected to the column of sucker rods 15', which in turn is also rigidly connected from below to the piston 9 'of the submersible rod pump 7', the piston 9 'together with the column of sucker rods 15 'are moved upward, while the liquid from the inner space of the piston 9' through the through longitudinal holes 10 'is forced into the nadporshne cavity 13' of the submersible rod pump 7 'and then through the channel 12', due to the fact that the space between the pipe string 5 'and pump string Ang 15 'at the wellhead 2' is sealed, enters the annular space of the well 2 'below the packer 4' and is pumped into the oil reservoir 3 'of the well 2'. In parallel, the fluid is sucked from the aquifer 1 'through the annulus 2' above the packer 4 'into the piston cavity 14' of the submersible sucker rod pump 7 ', while the suction valve 6' is open and the valve 11 'of the piston 9' is closed.

Simultaneously with the process of running the string of pump rods 15 'upward in the well 2', the working fluid flows from the sub-piston cavity 18 of the cylinder 16 of the well 2 into the cavity 19 of the hydraulic cylinder 20, while the piston 17 moves down, and the string of pump rods 15 moves down with it with piston 9.

When moving down the piston 9 relative to the cylinder 8 of the submersible rod pump 7, the internal space of the piston 9 is filled with liquid from the sub-piston space 14 of the submersible rod pump 7, while the suction valve 6 is closed and the valve 11 of the piston 9 is open.

The processes described above continue until the drive piston 21 of the hydraulic cylinder 20 reaches the rightmost position, with the piston 17 located in the cylinder 16 in the lower position and the piston 17 'located in the cylinder 16' in the upper position.

Then, the direction of movement of the drive piston 21 in the hydraulic cylinder 20 is again changed (the piston 21 is betrayed to the left) and the installation cycle is repeated as described above. Thus, there is a cyclic injection of fluid from the aquifer 1 and 1 'into the oil reservoir 3 and 3' in the well 2 and 2 '.

In the proposed installation for pumping fluid from the aquifer of the well into the oil reservoir, a deep-well pump (submersible sucker rod) is installed directly in the interval of the aquifer and oil reservoir of the well, which improves the efficiency of the pump. The installation allows you to save electricity, as the pump drives operate in the opposite direction, which makes it possible to work in a regenerative mode with the release of electricity to the field network.

Claims (1)

Installation for pumping fluid from the aquifer of the wells into the oil reservoir, containing packers, submersible rod pumps installed in each of the wells above the suction valve as part of the pipe string, characterized in that it is additionally equipped with a channel through which the nadporshne cavity of the pump is in communication with the oil reservoir wherein the piston cavity of the pump through the suction valve is in communication with the aquifer, and at the mouth of each well there is a cylinder with a piston, while the cylinder is rigidly fixed it is flax pipe string and the bottom piston is rigidly connected to the pump drive, and the piston cavities of each of the cylinders are hydraulically connected to the corresponding hydraulic cylinder cavities, separated by a driving piston and filled with a working fluid, while the hydraulic cylinder is located on the surface, and is used as a working fluid oil.