RU49573U1 - PUMPING UNIT FOR SIMULTANEOUS SEPARATE OPERATION OF TWO LAYERS IN A WELL (OPTIONS) - Google Patents

Abstract

The proposal relates to the oil industry, in particular to downhole pumping units. A pump installation for simultaneously separately operating two layers in a well, separated by a packer, consists of an upper and lower rod pumps, whose plungers are connected by a hollow rod. The lower pump lifts the products of the lower layer to the surface through the hollow rod and the internal cavities of the pump plungers along the hollow rod string, the upper production of the upper layer - through the string of lift pipes. The products of the upper and lower layers are not mixed. In cases where the productivity of the upper layer exceeds the productivity of the lower, the upper pump performs two-sided action, forcing the production of the well into the column of elevator pipes both during the course of its plunger up and down. The proposed installation provides simultaneous separate operation of two layers in the well with separate lifting of the lower layer products - through the hollow rods, the upper - through the lift pipes. At the same time, it is possible to separately measure the flow rate of each formation and separate field collection of production products if necessary, as well as the ability to study each formation during operation without killing the well and removing the pump. The installation has increased operational reliability if there is paraffin and sand in the products of the lower layer, since paraffin and sand, due to the increased flow rate inside the hollow rods, are carried out by the fluid flow to the surface, in addition, the installation design eliminates the deposition of sand from the bottom formation in the gap between the plunger and the cylinder of the lower pump.

Description

The proposal relates to the oil industry, in particular to downhole pumping units.

A known installation for simultaneously separately operating two layers, including a column of lift pipes, a sucker rod pump, a packer and a liner, in which the sucker rod pump is equipped with an additional suction valve located on the side wall of its cylinder and dividing this cylinder in length into two parts proportional to the productivity of the layers ( patent RU No. 2221136, Е 21 В 43/14, Publ. Bull. No. 1 dated 10.01.2004).

The disadvantages of the installation is that it does not allow separate lifting and measuring the production rate of each of the layers, as well as the inability to study the lower layer without removing the pump.

The closest in technical essence to the proposed installation is a borehole sucker-rod pumping unit for simultaneous operation of two layers in a well, containing a column of elevator pipes, a column of hollow rods, a packer and two successively installed rod pumps, the plungers with internal channels of which are connected to each other by a rod, the outlet of which it is sealed from the cylinder of the upper pump, and the intake of the lower pump is in communication with the under-packer space, the discharge is connected with by-pass channels with a column of elevator pipes, upper nadpakernym pump communicates with the space, and its inner cavity with vykid- rod string (book Dragotesku ND downhole oil -. M .: "Nedra", 1966. - Str.281, ris.207).

The disadvantage of the installation is the complex design and low reliability of its operation in the case when the production of the lower layer contains paraffin and (or) sand deposited in the bypass channels, in addition, the ingress of sand into the gap between the plunger and the cylinder leads to jamming of the lower pump. Another disadvantage of the installation is the inability to study the lower reservoir without removing the pumps.

The technical task of the utility model is to increase the reliability

installation when pumping out products containing paraffin and (or) sand from the lower reservoir, and also provide the opportunity to study the lower reservoir without removing the pump.

The technical problem is solved by a pump installation for the simultaneous separate operation of two layers in a well containing a column of elevator pipes, a column of hollow rods, a packer and two successively installed rod pumps with corresponding suction and discharge valves, the plungers with internal channels of which are connected to each other by a rod, which is lower from the top the pump is sealed, and the intake of the lower pump through its suction valve and shank is communicated with the under-packer space, and the intake of the upper pump through a suction valve in communication with nadpakernym space.

What is new is that the rod connecting the plungers is hollow with the possibility of communicating the internal channels of the plunger of the sucker rod pumps with the internal cavity of the hollow rods, forming a lower pump outflow with the discharge valve of the lower pump, the upper pump is annular, equipped with a channel and a hollow rod sealing unit mounted above the upper the pump and the uncoupling cavity of the upper pump and lift pipes, and the discharge of the upper pump through its discharge valve is in communication with the cavity of the lift pipe.

New for the second option is that the rod connecting the plungers is hollow with the possibility of communicating the internal channels of the plunger of the sucker pumps with the internal cavity of the hollow rods, forming a discharge of the lower pump with the pressure valve of the lower pump, the upper pump is annular, equipped with a channel, a hollow rod sealing unit, installed above the upper pump and uncoupling the cavity of the upper pump and lift pipes, an additional channel, suction and discharge valves, and the discharge of the upper pump through it the discharge valve is communicated by the channel with the cavity of the lift pipes, while the sub-plunger cavity of the upper pump through the additional suction valve is communicated with the over-packer space, and through the additional pressure valve and the channel with the cavity of the lift pipes.

For the first and second options, it is also new that the hollow rod on top of the plunger of the upper pump is equipped with an automatic coupler, made with the possibility of tight connection with the column of hollow rods.

Figure 1 presents a schematic diagram of a downhole pumping unit for simultaneous separate operation of two layers in a well according to the first embodiment.

Figure 2 presents a schematic diagram of a downhole pumping unit for

simultaneous separate operation of two layers in the well according to the second embodiment.

A pump installation for simultaneous separate operation of two layers 1 (see Fig. 1) and 2 in well 3 comprises a column of elevator pipes 4, a column of hollow rods 5, a packer 6 and two successively mounted rod pumps 7 and 8 with corresponding suction 9, 10 and pressure valves 11, 12, plungers 13 and 14 with internal channels 15 and 16 which are interconnected by a rod 17, a sealing assembly 18 sealed from the bottom of the upper pump 8 (made, for example, in the form of a plunger pair), while receiving the lower pump 7 through its suction valve n 9 and the shank 19 is in communication with the under-packer space 20, and the intake of the upper pump 8 through its suction valve 10 is in communication with the over-packer space 21. At the same time, the connecting rod 17 connecting the plungers 13 is hollow with the possibility of communication of the internal channels 15 and 16 of the plungers 13 and 14 sucker rod pumps 7 and 8 with an internal cavity 22 of the hollow rods 5, forming with the discharge valve 11 of the lower pump 7, the discharge of the lower pump 7. The upper pump 8 is made circular, provided with a channel 23 and a sealing unit 24 of the hollow rod 17 (made, for example, in the form of a plunger pa ry) installed above the upper pump 8 and uncoupling the cavity of the pump 8 and the lift pipes. The discharge of the upper pump 8 through its discharge valve 12 is communicated by a channel 23 with a cavity 25 of the elevator pipes 4.

In cases where the productivity of the upper layer 1 is higher than that of the lower 2 (second option), the upper pump 8 is made bilateral. For this, the sub-plunger cavity 26 (see FIG. 2) of the upper pump 8 is in communication with the over-packer space 21 through an additional suction valve 27, and through the additional discharge valve 28 and channel 29 with the cavity 25 of the lift pipes 4.

New is that the hollow rod 17 (see Figure 1) on top of the plunger 14 of the upper pump 8 is equipped with an automatic coupler 30 made with the possibility of tight connection with the column of hollow rods 5. Between the lower pump 7 and the sealing unit 18 of the rod 17 the space is not hermetically sealed by installing perforated pipe 31.

Installation works as follows.

In the well 3 between the opened productive formations 1 and 2, a packer 6 with a channel 32 for the liner 19 is installed.

The pump assembly assembled with the liner 19 is lowered into the well on the column of elevator pipes 4 until the liner 19 enters the channel 32 of the packer 6. Then, the column of hollow rods 5 with an automatic coupler 30 is lowered into the column of elevator pipes 4 to the tight connection with the hollow rod 17. The column of hollow rods 5 is driven back and forth by ground

drive (not shown). During the upward movement of the hollow rods 5, the production of the lower layer 2 from the under-packer space through the shank 19 and the suction valve 9 enters the lower pump 7, while from the supra-plunger cavity 33 of the upper pump 8, the products of the upper layer 1 through the discharge valve 12 and the channel 23 are pumped into the lift column pipes 4, along which it rises to the surface (not shown in Fig.). During the downward stroke, the suction valve 9 closes and the products of the lower formation 2 through the discharge valve 11, the channels 15, 16 of the plungers 13, 14 and the hollow rod 17 enter the column of hollow rods 5, along which it rises to the surface. At the same time, the products of the upper layer 1 from the overpacker space 21 of the well 3 through the suction valve 10 enter the supraplunger cavity 33 of the upper pump 8. Next, the cycles are repeated.

In the second embodiment (see FIG. 2), in addition to the first embodiment, the following occurs:

During the course of the hollow rods 5 with the plunger 14 upward, the production of the upper layer 1 from the overpacker space 21 through the additional suction valve 27 enters the subplunger cavity 26 of the upper pump 8. During the downward movement, the production of the upper layer 1 from the subplunger cavity 26 passes through the additional discharge valve 28 and the additional channel 29 enters the column of elevator pipes 4.

To conduct studies of formations 1 (see Figure 1) and 2 in the first and second embodiment, the pumping unit is temporarily stopped. The fluid from the hollow rods 5 is removed with a swab (not shown in Fig.) Or displaced by compressed gas using a smaller diameter flexible tube deflated into the hollow rods (not shown in Fig.), After which, during the influx of products from the lower layer through the valves 9 and 11 in the hollow rods 5, record the liquid level recovery curve (HLC) in the hollow rods 5 using an echo sounder. By processing the HIC, the parameters of the lower layer 2 are determined. At the same time, the HLC in the over-packer space 21 of the well 3 can be removed in the usual way, by processing of which the parameters of the upper layer 1 are determined.

Thus, the proposed installation provides simultaneous separate operation of two layers in the well with separate lifting of products: the lower layer along the hollow rods, the upper - through the lift pipes. At the same time, it is possible to separately measure the flow rate of each formation and separate field collection of production products if necessary, as well as the ability to study each formation during operation without killing the well and removing the pump. The installation has increased reliability in the presence of paraffin and sand in the lower formation, since

paraffin and sand, due to the increased flow rate inside the hollow rods, are carried out by the fluid flow to the surface, in addition, the design of the installation eliminates the deposition of sand from the production of the lower layer in the gap between the plunger and the cylinder of the lower pump.

Claims (4)

1. A pump installation for the simultaneous separate operation of two layers in a well, comprising a column of elevator pipes, a column of hollow rods, a packer and two successively mounted rod pumps with corresponding suction and discharge valves, the plungers with internal channels of which are connected to each other by a rod, which is below the upper cylinder the pump is sealed, and the intake of the lower pump through its suction valve and shank is in communication with the under-packer space, and the intake of the upper pump through its suction The connecting valve is in communication with the over-packer space, characterized in that the rod connecting the plungers is hollow with the possibility of communicating the internal channels of the plunger of the sucker pumps with the internal cavity of the hollow rods, forming the lower pump with the discharge valve of the lower pump, the upper pump is made annular, equipped with a channel and a sealing unit a hollow rod mounted above the upper pump and uncoupling the cavity of the upper pump and lift pipes, and the channel of the upper pump through its discharge valve is communicated scrap with a cavity of elevator pipes. 2. A pump installation for simultaneous separate operation of two layers in a well according to claim 1, characterized in that the hollow rod on top of the plunger of the upper pump is equipped with an automatic coupler, made with the possibility of tight connection with the column of hollow rods. 3. A pump installation for the simultaneous separate operation of two layers in a well, comprising a column of elevator pipes, a column of hollow rods, a packer, and two successively mounted rod pumps with corresponding suction and discharge valves, the plungers with internal channels of which are connected to each other by a rod that is located below the cylinder the upper pump is sealed, and the intake of the lower pump through its suction valve and shank is in communication with the under-packer space, and the intake of the upper pump through its suction The inlet valve is in communication with the over-packer space, characterized in that the rod connecting the plungers is hollow with the possibility of communicating the internal channels of the plunger of the sucker pumps with the internal cavity of the hollow rods, forming a lower pump outflow with the discharge valve of the lower pump, the upper pump is made annular, equipped with a channel, a sealing unit hollow rod installed above the upper pump and uncoupling the cavity of the upper pump and elevator pipes, an additional channel, suction and discharge valves, and in Kid upper pump through its discharge valve passage communicates with the cavity of tubings, the under-plunger cavity through the additional upper pump suction valve nadpakernym communicates with the space, and further through the discharge valve and the channel - to the cavity of tubings. 4. The pump installation for the simultaneous separate operation of two layers in the well according to claim 3, characterized in that the hollow rod on top of the plunger of the upper pump is equipped with an automatic coupler, made with the possibility of tight connection with the column of hollow rods.