RU65118U1 - INSTALLATION FOR LIQUID INJECTION IN ONE LAYER AND OIL PRODUCTION FROM ANOTHER WELL - Google Patents

Abstract

The proposal relates to techniques and technologies for the simultaneous selection of products from one formation and injection of fluid into another formation of the well. Installation for pumping fluid into one formation and oil production from another formation of the well contains a pipe string, a packer installed between the layers, as well as a pump. The pump is a submersible electric centrifugal pump and is installed at the end of the pipe string. The pipe string from below is equipped with a hollow shank mounted on it, resting on the bottom of the well bottom and equipped with perforated holes. The space of the pipe string below the submersible electric centrifugal pump is communicated with the lower layer through the perforated holes, the hollow shank and the annular space below the packer. The annular space above the packer is communicated with the upper layer. The packer is installed on the upper end of the hollow shank and is made in the form of a self-sealing cuff that does not allow fluid to pass to the lower layer during installation. The proposed installation for pumping fluid into one reservoir and oil production from another reservoir has a simple design, in addition, the pump is submersible electric centrifugal and installed directly in the interval of the oil reservoir of the well, which improves its efficiency and the possibility of simultaneous selection of products from one reservoir and pumping fluid into another wellbore allows you to expand the functionality of the installation. 1 ill. for 1 liter

Description

The proposal relates to techniques and technologies for the simultaneous selection of products from one formation and injection of fluid into another formation of the well.

There is a method of pumping water into an oil reservoir (copyright certificate SU No. 283120, ЕВВ 43/00, publ. BI No. 31 of 10/06/1970), carried out using an installation for pumping liquid into a reservoir containing a packer, tubing string (Tubing) and capacity in communication 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 35-40 ° 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, ЕВВ 43/00, 1986 publ. BI No. 15 of 04.25.1980), containing a packer, tubing string and a container in communication with a pump, while it is equipped with discharge and suction valves mounted 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 complexity of the design, due to the presence of discharge and suction valves installed in the pipe string, upper and lower level sensors, tanks, control station for switching the direction of rotation of the electric motor;

secondly, the pump is made in the 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.

thirdly, the installation does not allow simultaneous selection of products from one formation and pumping fluid into another formation of the well.

The technical task of the utility model is to simplify the design of the installation and increase the efficiency of the pump while expanding the functionality of the installation due to the simultaneous selection of products from one formation and pumping fluid into another formation of the well.

This problem is solved by the installation for pumping fluid into one formation and oil production from another formation of the well, containing a pipe string, a packer installed between the layers, a pump.

What is new is that the pump is made by a submersible electric centrifugal pump and is installed at the end of the pipe string, while the pipe string from the bottom is equipped with a hollow liner sealed on it, resting on the bottom of the well and equipped with perforated holes, the packer being installed at the upper end of the hollow liner and made in in the form of a self-sealing cuff that does not allow liquid to pass from top to bottom, while the space of the pipe string below the pump is communicated with the lower layer through the perforated holes of the hollow shaft and ezhkolonnoe space below the packer and the annular space above the packer - the upper reservoir.

The figure schematically shows an installation for pumping fluid into one formation and oil production from another formation of the well.

Installation for pumping fluid into one reservoir 1 and oil production from another reservoir 2 of well 3 contains a pipe string 4 with a packer 5 installed between the layers, as well as a pump 6. The pump 6 is submersible electric centrifugal and installed at the end of the pipe string 4. Pipe string 4 the bottom is equipped with a hollow shaft 7 mounted on it, resting on the bottom of the bottom 8 of the well 3 and equipped with perforated holes 9.

The space 10 of the pipe string 4 below the submersible electric centrifugal pump 6 is communicated with the lower layer 2 through the perforated holes 9, the hollow shank 7 and the annular space 11 below the packer 5.

The annular space 12 above the packer 5 is communicated with the upper layer 1.

The packer 5 is installed on the upper end of the hollow shank 7 and is made in the form of a self-sealing cuff that does not allow fluid to pass to the lower layer 2 during installation.

Unauthorized fluid flows during the operation of the installation are excluded by the sealing element 13.

Installation works as follows.

Before starting the installation into operation, the installation of the installation is carried out in the well 3, as shown in the figure, after which the upper end of the pipe string 4 is tied at the wellhead 3 with a flow line (not shown in Fig.), And the annular space 12 at the wellhead 3 is connected to discharge line (not shown in FIG.).

After that, the installation is put into operation, while for the extraction of oil from the oil reservoir 2, a submersible electric centrifugal pump 6 is installed, which is installed at the lower end of the pipe string 4, while oil from the oil reservoir 2 of the well 3 through the annulus 11 below the packer 5 and perforated holes 9 of the hollow shank 7 enters the space 10 to receive a submersible electric centrifugal pump 6, which pumps the oil to the surface in a flow line through a pipe string 4.

Thus, there is a process of oil production from the oil reservoir 2, and at the same time, fluid (for example, waste water) can be injected into the overlying reservoir 1 of the well 3 along the injection line (not shown in Fig.) From the wellhead 3 to the annulus 12 as it fills, the fluid is pumped into reservoir 1 (depending on its injectivity and the established discharge pressure).

The proposed installation for pumping fluid into one reservoir and oil production from another reservoir has a simple design, in addition, the pump is submersible electric centrifugal and installed directly in the interval of the oil reservoir of the well, which improves its efficiency and the possibility of simultaneous selection of products from one reservoir and pumping fluid into another wellbore allows you to expand the functionality of the installation.

Claims (1)

Installation for pumping liquid into one formation and oil production from another formation of the well, containing a pipe string, a packer installed between the layers, a pump, characterized in that the pump is submersible electric centrifugal and installed at the end of the pipe string, while the pipe string is provided with a sealed bottom on it a hollow shaft, resting on the bottom of the well bottom and equipped with perforated holes, the packer installed on the upper end of the hollow shaft and made in the form of a self-sealing cuff, does not skip guide the liquid from the top down, with the space below the pump tubing string is communicated with the reservoir through the lower perforations and a hollow shank annular space below the packer, and the annular space above the packer - to the upper reservoir.