RU2528469C1 - Pump unit for separate operation of two beds - Google Patents

Abstract

FIELD: oil-and-gas industry.

SUBSTANCE: this plant comprises well pump connected with cylinder with plugged bottom and lateral holes to accommodate hollow plunger and with jacket connected with stem with packer at its end. Annulus is formed between cylinder and jacket. Well pump is connected with jacket made and connected with cylinder to make flow sections from to and from bottom beds to well pump inlet. Cylinder bottom end is open and connected with stem with packer at its end. Cylinder accommodates solid plunger for limited axial displacement to overlap flow sections from to and from bottom beds to well pump inlet.

EFFECT: simplified design, higher efficiency.

2 dwg

Description

The invention relates to techniques for oil production and can be used to lift fluid from a well.

A known installation for simultaneous and separate operation of two layers (see patent RU No. 2221136, ЕВВ 43/14, publ. 10.01.2004), including a column of lift pipes, a sucker rod pump equipped with an additional suction valve placed on the side wall of its cylinder and dividing this cylinder in length into two parts, proportional to the productivity of the layers, the packer and the liner.

The disadvantage of the installation is the difficulty of separating the cylinder depending on the productivity of the strata in conditions of the flow rate of at least one of the strata changing in practice.

A known installation for simultaneous and separate operation of two layers (see patent RU No. 2353808, F04B 47/02, publ. 04/27/2009), including a borehole pump connected to a cylinder plugged from below with side holes in which a hollow plunger is installed, and with a casing connected to the shank with a packer at the end, and an annular space is formed between the cylinder and the casing. The specified installation on the technical nature and the achieved result is closest to the proposed pump installation for separate operation of two layers and it can be taken as a prototype.

The disadvantages of the prototype are the complexity of the design, low efficiency.

The technical result of the claimed invention is to simplify the design of the installation and increase efficiency in operation.

The technical result is solved by the described pump installation for separate operation of two layers, including a borehole pump connected to a cylinder with side holes in which a hollow plunger is installed, and with a casing connected to a shank with a packer at the end, and an annular space is formed between the cylinder and the casing .

New is that the borehole pump is connected to a casing, which is made and connected to the cylinder with the creation of flow sections from the upper and lower layers to the reception of the borehole pump, the cylinder is made with an open lower end connected to the shank with a packer at the end, in the cylinder continuous plunger with cargo with the possibility of limited axial movement, which provides alternate overlapping of the bore from the upper or lower layer to the reception of the borehole pump.

The set of distinctive features of the proposed installation allows us to solve the problem.

Figure 1 schematically shows the installation during operation of the upper reservoir, figure 2 is the same during the operation of the lower reservoir.

A pump installation for separate operation of two layers (see Fig. 1) contains a borehole pump 1, lowered on a string of tubing 2 into a well 3, which has opened the upper 4 and lower 5 productive layers, a casing 6 connected to the borehole pump 1, a cylinder 7, connected to the casing 6, a shank 8 with a packer 9 installed between the layers 4 and 5, attached to the lower open end of the cylinder 7, a continuous plunger 10 located in the cylinder 7, a load 11 attached to a continuous plunger 10, the upper 12 and lower 13 stops mounted in the cylinder 7. The passage channel 14, made in the upper part of the cylinder 7, communicates the cavity of the cylinder 7 with the annular space of the borehole 3 above the packer 9, and the lateral hole 15 in the middle of the cylinder 7 communicates the cavity of the cylinder 7 with the annular space formed between the cylinder 7 and the casing 6 .

Installation works as follows. For a given pressure differential between the lower 5 and upper 4 layers, which is regulated by the weight of the load 11, a continuous plunger 10 under its own weight and the weight of the load 11 is moved in the cylinder 7 to the lower position until it stops 13, as shown in figure 1. This opens the passage section between the upper layer 4 and the intake of the pump 1, the liquid from the upper layer 4 through the passage channel 14, the cavity of the cylinder 7, the side hole 15 in the cylinder 7 and the annular space between the cylinder 7 and the casing 6 is received by the pump 1, and then, along the string of tubing 2, it rises to the wellhead 3. At this time, the upper formation 4 is operated, and the lower formation 5 is not operated, and bottomhole pressure increases under the packer 9, which acts through the cavity of the liner 8 on the continuous plunger 10 from below . After reaching the specified value of the pressure drop between the layers 5 and 4, the continuous plunger 10 moves them up to the stop 12, as shown in figure 2. This opens the passage section between the lower layer 5 and the intake of the pump 1, the liquid from the lower layer 5 through the cavity of the shank 8, the cavity of the cylinder 7, the side hole 15 in the cylinder 7 and the annular space between the cylinder 7 and the casing 6 is received by the pump 1, and then, along the string of tubing 2, it rises to the wellhead 3. At this time, the lower formation 5 is in operation, and the upper formation 4 is not in operation, and bottomhole pressure rises above the packer 9, which, through the passage channel 14, acts on the continuous plunger 10 from above. After reaching the specified value of the pressure drop between the layers 5 and 4 under the action of the weight of the plunger 10 and the load 11, the continuous plunger 10 moves down to the stop 13.

Further cycles are repeated.

The connection of the downhole pump 1 with the casing 6, which is made and connected to the cylinder 7 with the creation of flow sections from the upper 4 and from the lower 5 layers to the reception of the downhole pump 1, provides hydraulic connection of the intake of the pump 1 with both the upper 4 and lower 5 layers. The implementation of the cylinder 7 with an open lower end connected to the shank 8 with a packer 9 at the end, installed between the layers 4 and 5, provides separation of the upper layer 4 from the lower layer 5 and communication of the lower layer 5 with the cavity of the cylinder 7. Placing a solid plunger 10 in the cylinder 7 with the possibility of limited axial movement provides alternate overlap at the reception of the downhole pump 1 of the flow area from the upper 4 or from the lower 5 formation, thereby allowing the alternate operation of the lower 5, then the upper 4 layer in accordance Due to the change in bottomhole pressure in them and the achievement of a given pressure drop between layers 4 and 5. The load 11 attached to the plunger 10 allows, by changing the weight of the load, to set the pressure drop between the layers 4 and 5, necessary to move the solid plunger 10 in the cylinder 7 .

Using the proposed pump installation for separate operation of two layers allows to simplify the design of the installation, to use various types of borehole pumps, to ensure, without changing the parameters of the pump depending on the pressure change in the layers, the alternate operation of two layers in accordance with a given pressure drop between them, regardless of pressure layers, do not stop the installation to change the parameters of the installation and conduct research on the layers, thereby increasing e ciency of the plant.

Claims (1)

A pump installation for separate operation of two layers, including a borehole pump connected to a cylinder with side holes in which a hollow plunger is installed, and with a casing connected to a shank with a packer at the end, and an annular space is formed between the cylinder and the casing, characterized in that the well pump is connected to the casing, which is made and connected to the cylinder with the creation of flow sections from the upper and lower layers to the reception of the well pump, the cylinder is made with an open lower end, connected connected with a shank with a packer at the end, a continuous plunger with a load is placed in the cylinder with the possibility of limited axial movement, which provides alternate overlapping of the flow section from the upper or lower layer to the reception of the well pump.

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