RU216604U1 - Rod pump for simultaneous separate operation of two layers - Google Patents

Abstract

The utility model relates to the oil industry, namely, oil production with simultaneous-separate exploitation of two reservoirs by one well. The technical problem to be solved by the claimed utility model is to increase the reliability of the sucker rod pump. The technical result for solving this technical problem is to ensure the safe passage of curvature intervals or joints of casing coupling joints during tripping operations. Rod pump for simultaneous separate operation of two layers includes a cylinder with upper and lower extension pipes, main and side suction valves, a plunger with a discharge valve, while the side suction valve is located on the wall of the cylinder and divides it into two parts along the length, proportional to the productivity of the layers, at the same time, the rod pump is configured to be connected to the tubing string, as well as to the liner with the packer. The upper and lower extension pipes of the cylinder are equipped with couplings with centralizers welded on the outer surface, while the centralizers are made in the form of asymmetric cylinders elongated towards the location of the side suction valve, chamfers are made on the ends of the centralizers, while on the centralizer of the upper extension pipe there is a chamfer directed to the mouth of the well, is made with a large angle relative to the chamfer directed to the bottom of the well, and on the centralizer of the lower extension pipe, the chamfer directed to the bottom of the well is made with a large angle relative to the chamfer directed to the wellhead, the side suction valve is made of the same size as the main suction valve. Centralizers are made of polyamide. Thus, the proposed utility model improves the performance and reliability of the rod pump for the simultaneous separate operation of two reservoirs, providing high throughput, safe passage of curvature intervals or joints of casing coupling joints during tripping operations, excluding clogging of the valve by floating debris and asphalt, resin, and paraffin deposits, as well as prevention of emergencies.

Description

The utility model relates to the oil industry, namely to oil production with simultaneous-separate exploitation of two reservoirs by one well.

A rod pump is known (patent RU No. 2165010, IPC E21B 43/00, 47/00, publ. 10.04.2001 in bull. No. 10), which includes a cylinder located in the cylinder with the possibility of reciprocating motion, a plunger with a pressure valve, an extension nipple installed at the lower end of the cylinder with a side suction valve and a plunger sleeve stop. The side suction valve is located on the side outside the plunger action zone, and the extension nipple in the lower end part is provided with a plug, and in the upper part of the cylinder there is a hole communicated with the annular space, located at a greater distance from the plunger stop than the plunger length.

The disadvantages of this rod pump are:

low pump performance associated with a small flow area of the side suction valve, as a result, a small throughput of the rod pump, which also entails the risk of clogging of the valve with floating debris and asphalt-resin-paraffin deposits;

low reliability of the pump, associated with a high risk of damage to the body of the side suction valve during tripping operations in the intervals of curvature of the wellbore or at the junction of the coupling joints of the casing pipes.

The closest analogue is a rod pump for simultaneous separate operation of two layers (patent RU No. 2221136, IPC E21B 43/14, published on January 10, 2004 in bull. No. 1), including a cylinder with upper and lower extension pipes, main and side suction valves , a plunger with a discharge valve, while the side suction valve is located on the cylinder wall and divides it along the length into two parts proportional to the reservoir productivity, while the rod pump is configured to be connected to the tubing string, as well as to the liner with the packer.

The disadvantages of this rod pump are:

low pump performance associated with a small flow area of the side suction valve, as a result, a small throughput of the rod pump, which also entails clogging of the valve with floating debris and asphalt-resin-paraffin deposits;

low reliability of the pump, associated with a high risk of damage to the body of the side suction valve during tripping operations in the intervals of curvature of the wellbore or at the junction of the coupling joints of the casing pipes.

The technical problem to be solved by the claimed utility model is to increase the reliability of the sucker rod pump.

The technical result for solving this technical problem is to ensure the safe passage of curvature intervals or joints of casing coupling joints during tripping operations.

The technical result is achieved by a rod pump for simultaneous separate operation of two layers, including a cylinder with upper and lower extension pipes, main and side suction valves, a plunger with a discharge valve, while the side suction valve is located on the wall of the cylinder and divides it into two parts along the length, proportional to the productivity of the formations, while the rod pump is made with the possibility of attaching to the tubing string, as well as to the liner with the packer.

What is new is that the upper and lower extension pipes of the cylinder are equipped with couplings with centralizers welded on the outer surface, while the centralizers are made in the form of asymmetric cylinders elongated towards the location of the side suction valve, chamfers are made on the ends of the centralizers, while on the centralizer of the upper extension pipe the chamfer directed to the wellhead is made with a large angle relative to the chamfer directed to the bottom of the well, and on the centralizer of the lower extension pipe the chamfer directed to the bottom of the well is made with a large angle relative to the chamfer directed to the wellhead, the side suction valve is made of the same size with main suction valve.

What is also new is that the centralizers are made of polyamide.

In FIG. 1 shows a diagram of a rod pump for the simultaneous separate operation of two layers.

In FIG. 2 shows a top view of a rod pump for simultaneous separate operation of two layers.

Rod pump consists of cylinder 1 with top 2 and bottom 3 extension pipes, main 4 and side 5 suction valves.

Inside the cylinder 1 there is a plunger 6 with a discharge valve 7. The side suction valve 5 is located on the wall of the cylinder 1 and divides it along the length into two parts proportional to the reservoir productivity. At the same time, the rod pump is made with the possibility of being connected to the tubing string, as well as to the liner with a packer (not shown in Figs. 1, 2).

Upper 2 and lower 3 extension pipes of the cylinder are equipped with couplings 8 and 9.

Centralizers 10 and 11, respectively, are deposited on the outer surface of couplings 8 and 9.

The extension of the couplings 8 and 9 ensures the placement of centralizers 10 and 11 on it.

The presence of centralizers 10 and 11 ensures safe lowering and lifting of the pump with an increase in the dimensions of the casing and the size of the side suction valve, due to the deviation of the pump axis.

At the same time, the centralizers 10 and 11 are made in the form of asymmetric cylinders, elongated towards the location of the side suction valve 5.

Chamfers 12, 13, 14, 15 are made on the ends of centralizers 10 and 11.

At the same time, on the centralizer 10 of the upper extension pipe 2, the chamfer 12 directed to the wellhead is made with a large angle relative to the chamfer 13 directed to the bottom of the well.

On the centralizer 11 of the lower extension pipe 3, the chamfer 14, directed to the bottom of the well, is made with a large angle relative to the chamfer 15, directed to the wellhead.

The shape of the centralizers 10 and 11 ensures the safe passage of curvature intervals or joints of casing coupling joints, both when lifting and when lowering, to maintain the integrity of the side suction valve 5, and as a result, the reliability of the pump is increased.

The side suction valve 5 is made of the same standard size as the main suction valve 4.

The same size of valves 4 and 5 provides a high throughput of the rod pump, which also eliminates clogging of the valve with floating debris and ARP deposits.

Also new is that the centralizers 10 and 11 are made of polyamide. The execution of the centralizers 10 and 11 from this material allows you to quickly break (break) the centralizers 10 and 11 from the elongated couplings 8 and 9 in case of jamming during tripping operations due to defects in the production string or the formation of asphalt, resin and paraffin deposits in the well, which prevents an emergency during repairs . Reduces the cost of underground repairs.

Rod pump for simultaneous separate operation of two layers operates as follows.

When the plunger 6 moves upwards, the main suction valve 4 opens and the liquid from the low-pressure reservoir under the action of bottom hole pressure P1 enters the cavity of the pump cylinder 1, while the side suction valve 5 is blocked by the plunger 6 or is located above the plunger 6 and is still closed by the pressure drop. After the plunger 6 passes through the side suction valve 5, the latter opens, because bottomhole pressure P2>P1, and the main suction valve 4 closes under the same pressure drop. With the further movement of the plunger 6 upwards, liquid enters the cavity of the cylinder 1 only from the high-pressure formation. Upon reaching the top point, the plunger 6 changes direction of movement, the liquid flows through the discharge valve 7 from the sub-plunger cavity of the cylinder to the over-plunger cavity. After the plunger 6 reaches the lower point, the cycle repeats.

Thus, the proposed utility model improves the performance and reliability of the sucker rod pump for the simultaneous separate operation of two reservoirs, providing high throughput, safe passage of curvature intervals or joints of casing coupling joints during tripping operations, excluding clogging of the valve by floating debris and asphalt, resin and paraffin deposits, as well as prevention of emergencies.

Claims (2)

1. Rod pump for simultaneous separate operation of two layers, including a cylinder with upper and lower extension pipes, main and side suction valves, a plunger with a discharge valve, while the side suction valve is located on the wall of the cylinder and divides it into two parts along the length, proportional at the same time, the rod pump is configured to be connected to the tubing string, as well as to the liner with a packer, characterized in that the upper and lower extension pipes of the cylinder are equipped with couplings with centralizers welded on the outer surface, while the centralizers are made in the form of asymmetric cylinders , elongated towards the location of the side suction valve, chamfers are made on the ends of the centralizers, while on the centralizer of the upper extension pipe the chamfer directed to the wellhead is made at a large angle relative to the chamfer directed to the bottom of the well, and on the centralizer of the lower extension chamfer directed to the bottom of the well is made with a large angle relative to the chamfer directed to the wellhead, the side suction valve is made of the same size as the main suction valve. 2. Rod pump for simultaneous separate operation of two layers according to claim 1, characterized in that the centralizers are made of polyamide.

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