RU62658U1 - PRODUCT FOR WAVE INFLUENCE ON PRODUCTIVE LAYER - Google Patents

Abstract

The proposed utility model relates to oil production and can be used in production, as well as decommissioned and low-producing wells.

The technical problem solved in the proposed utility model is to increase the reliability and durability of the device while increasing the level of energy parameters of the wave action.

The problem is solved in that the device for wave action on the reservoir, including a cylinder installed in the well and placed inside the cylinder with the possibility of axial movement of the plunger, is additionally equipped with a casing closed from below, mounted on the lower part of the cylinder with the formation of a closed suction chamber. The cylinder is equipped with a suction valve installed in the lower part, and radial windows spaced along the axis are made on its lateral surface. The plunger is made stepped with a through inner channel and is equipped with a discharge valve, moreover, the diameter of the middle stage of the plunger is less than the diameters of its upper stages. The lower cylinder windows are located above the upper edge of the lower stage of the plunger at the extreme lower position of the plunger.

It is advisable to make the middle part of the plunger flexible, for example, in the form of a nipple. This will reduce the likelihood of jamming of the plunger during its movement inside the cylinder and thereby increase the reliability of the device as a whole.

It is also advisable to make a cylinder in the form of two parts connected by a coupling, and the upper radial windows to execute in the coupling. This embodiment is technologically simpler and, therefore, can improve the quality of processing of cylinder parts and thereby increase the reliability and durability of the device as a whole.

Using the proposed device allows you to:

- significantly increase the impact energy, using the entire hydrodynamic potential of the liquid column in the well;

- eliminate the determining role of dynamic loads from the reflected wave on the strength and durability of the elements of the drive of the reciprocating movement of the plunger;

- provide various technological modes of stimulation: just pumping out the liquid; pumping with wave action; only wave, moreover, hydraulic, seismic or combined impact; Depression 2 s.p. f-ly, 1 Fig.

Description

The proposed utility model relates to oil production and can be used in production, as well as decommissioned and low-producing wells.

A device is known according to the patent of the Russian Federation No. 2075596 (IPC 6 E 21 B 43/25, 28/00, 43/16, publ. 03/20/1997), including a lifting mechanism in the form of a rocking machine, a column of tubing, cylinder with a landing a saddle mounted on the end of the tubing, a plunger mounted in the cylinder with the possibility of axial movement and exit from the cylinder in its highest position, a centralizer installed between the tubing string and the cylinder, a charging device, a container and rods with a rod, one the end of which is connected with a rocking machine and the other with a plunger.

A significant disadvantage of this device is the occurrence at the time of striking a reflected shock wave, leading to the appearance of shock-dynamic loads on the traction and drive. The presence of shock-dynamic loads leads to the destruction of traction and impaired operability of the drive. In practice, this forces to reduce the energy potential of wave effects.

Closest to the proposed device in technical essence and the achieved result is the installation for impulse exposure to the reservoir according to the patent of the Russian Federation No. 2140533 (IPC 6 E 21 V 43/25, publ. 10/27/1999), including a tubing string installed in the well with a cylinder placed in the cylinder a plunger with a check valve connected through a rod with a plunger pumping unit. On the cylinder or in its cavity is installed with the possibility of reciprocating

motion plug, made, for example, in the form of a glass.

A disadvantage of the known device, as well as the device according to the patent of the Russian Federation No. 2075596, is the limited structural strength due to the occurrence of shock-dynamic loads on the traction and drive.

The technical problem solved in the proposed utility model is to increase the reliability and durability of the device while increasing the level of energy parameters of the wave action.

The problem is solved in that the device for wave action on the reservoir, including a cylinder installed in the well and placed inside the cylinder with the possibility of axial movement of the plunger, is additionally equipped with a casing closed from below, mounted on the lower part of the cylinder with the formation of a closed suction chamber. The cylinder is equipped with a suction valve installed in the lower part, and radial windows spaced along the axis are made on its lateral surface. The plunger is made stepped with a through inner channel and is equipped with a discharge valve, moreover, the diameter of the middle stage of the plunger is less than the diameters of its upper stages. The lower cylinder windows are located above the upper edge of the lower stage of the plunger at the extreme lower position of the plunger.

Providing the device with a casing closed from below, mounted on the lower part of the cylinder with the formation of a closed suction chamber, in combination with spaced apart radial windows on the side of the cylinder, a suction valve in the lower part of the cylinder and a stepped plunger with an internal radial channel and a discharge valve, provides a suction cavity rarefaction chamber during the upward stroke of the plunger, which can significantly increase the power of the wave action on the reservoir due to the inlet during the plunger and down, that is, when the force in the thrust is minimal, and the load on the drive is absent, then

pump out formation fluid to the surface. This eliminates the dynamic impact on traction and drive, which leads to increased reliability and durability of the device.

It is advisable to make the middle part of the plunger flexible, for example, in the form of a nipple. This will reduce the likelihood of jamming of the plunger during its movement inside the cylinder and thereby increase the reliability of the device as a whole.

It is also advisable to make a cylinder in the form of two parts connected by a coupling, and the upper radial windows to execute in the coupling. This embodiment is technologically simpler and, therefore, can improve the quality of processing of cylinder parts and thereby increase the reliability and durability of the device as a whole.

The proposed utility model is illustrated in FIG. 1 by a drawing of a general view of the device, a longitudinal section.

A device for wave action on the reservoir includes a cylinder 1 installed in the well and axially displaced within the cylinder 2. The plunger 2 is installed in the lower part of the cylinder 1 to form a closed suction chamber 3, a casing closed from the bottom 4. A suction casing is installed in the lower part of the cylinder 1 valve 5, and on its lateral surface there are made axially spaced radial windows 6 and 7. The plunger 2 is made stepwise with a through internal channel 8 and is equipped with a discharge valve 9, moreover, the diameter the middle stage 10 of the plunger 2 is smaller than the diameters of its lower 11 and upper 12 stages, and the lower windows 6 of the cylinder are located above the upper edge of the lower stage 11 of the plunger 2 with the lower position of the plunger 2. The length of the middle stage 10 of the plunger 2 exceeds the axial distance between the lower 6 and the top 7 windows of cylinder 1.

In order to improve the manufacturability of manufacturing such a dimensional part as cylinder 1, it is advisable to make the latter in the form of an upper 13 and lower 14 parts connected by a sleeve 15. In this case, the upper windows 7 are made in the sleeve 15.

The middle stage 10 of the plunger 2 can be made elastic, for example, in the form of a nipple connecting the lower 11 and upper 12 stages of the plunger 2.

With a specific implementation of the proposed device, an adapter 17 can be installed in the lower part of the casing 4 through an elastic gasket 16 for transmitting a pulse to the reservoir, a coupling 18 is installed in the upper part of the cylinder 1 for connecting to the tubing string, and the plunger is connected to the drive in the form rocking machine through becoming sucker rods through the coupling 19.

The proposed device operates as follows.

The device is placed in a cased well on tubing (tubing). Plunger 2 is connected to the drive. In the initial state, the plunger 2 is in its lowest position. In this case, the suction chamber 3, formed by the casing 4 and the cylinder 1 through the lower windows 6 of the cylinder 1 is in communication with the cavity of the cylinder 1, and the cavity of the cylinder 1 through the upper windows 7 - with the annular space. The well is filled with fluid. When the plunger 2 moves under the action of the drive, the fluid from the annulus through the windows 7, 6, the suction chamber 3 and the suction valve 5 enters the subplunger space 20. With the further movement of the plunger 2 upward, its lower stage 11 overlaps the windows 6 of cylinder 1. At the same time, there is a decrease pressure in the suction chamber 3 due to rarefaction and liquid displacement from the supraplunger space 21 to the flow line or annulus. After plunger 2 reaches its extreme upper position, its downward movement begins. At the time of opening

windows 6, the liquid from the annular space enters the suction chamber 3, the pressure of which is reduced during the upward stroke of the plunger. In the chamber 3, a pulse increase in pressure occurs, which is transmitted to the formation, causing elastic vibrations in it. With further movement of the plunger 2 downward, the liquid from the subplunger space 20 through the discharge valve 9 and the inner channel 8 of the plunger 2 is forced into the supraplunger space 21. After the plunger 2 reaches its lowest position, the cycle repeats.

The proposed device provides a high-energy pulse effect on the reservoir by supplying fluid from the annulus to the suction chamber 3 with reduced pressure, and then by displacing the fluid from the supraplunger 21 into the flow line or overflow into the annulus. That is, in one cycle, the proposed device provides both a wave effect on the reservoir and pumping formation fluid to the surface. At the same time, there is no shock-dynamic effect on the equipment, which allows to increase the reliability and durability of the device and maximize the power of the wave action on the reservoir.

Thus, the use of the proposed device allows you to:

- significantly increase the impact energy, using the entire hydrodynamic potential of the liquid column in the well;

- eliminate the determining role of dynamic loads from the reflected wave on the strength and durability of the elements of the drive of the reciprocating movement of the plunger;

- provide various technological modes of stimulation: just pumping out the liquid; pumping with wave action; only wave, moreover, hydraulic, seismic or combined impact; Depression

Claims (3)

1. Device for wave action on the reservoir, including a cylinder installed in the well and placed inside the cylinder with the possibility of axial movement of the plunger, characterized in that it is additionally equipped with a casing closed from below, mounted on the bottom of the cylinder with the formation of a closed suction chamber, the cylinder is equipped with an installed in the lower part by a suction valve, and on its side surface radial windows spaced along the axis are made, the plunger is made stepwise with a through inner channel m and is provided with a discharge valve, wherein the diameter of the middle-stage plunger smaller diameters of the upper and lower stages, and the lower box cylinder disposed above the upper edge of the lower-stage plunger during its lowermost position. 2. The device according to claim 1, characterized in that the middle part of the plunger is made elastic, for example, in the form of a nipple. 3. The device according to claim 1 or 2, characterized in that the cylinder is made in the form of two parts connected by a coupling, while the upper radial windows are made in the coupling.