RU88733U1 - DEVICE FOR OIL PRODUCTION AND TREATMENT OF A WELL BOTTOM ZONE - Google Patents

Abstract

1. Device for oil production and treatment of the bottom-hole zone of the well, consisting of a cylindrical pump casing with a bottom and receiving perforations, a plunger with a discharge valve connected to a rod string, a casing screwed onto a sleeve that is screwed onto the tubing string and housing a pump, a shank connected by means of a coupling with a casing and having a plug and receiving perforations in the lower part, characterized in that the device is additionally equipped with a removable drive and set in the hole of the bottom of the pump housing and formed as a cup. ! 2. The device according to claim 1, characterized in that the glass of the sludge accumulator is cylindrical and made of metal.

Description

The inventive utility model relates to the oil industry and can be used for oil production while processing the bottom-hole zone of the well.

There are many devices for oil production, as well as for processing bottom-hole zone of wells. The closest known device is for oil production and treatment of the bottomhole zone of the well according to patent No. 1830222 from 10.13.1992. This device consists of a cylindrical pump casing with a plug and receiving perforations located on it, a plunger with suction and discharge valves, connected to the rod string, a casing screwed to the coupling, which is screwed to the tubing string and the pump casing, the shank connected by means of a coupling with a pump housing and having a plug and receiving perforations in the lower part. The device is located in the production casing of the well.

The disadvantage of this device is that during its operation in the pump casing, mineral deposits and sludge accumulate from the bottomhole formation zone, which clogs the plunger, impedes the flow of oil through the plunger and interferes with the operation of the device. In order to restore normal operation, a special lifting of the plunger to the surface for cleaning is required, which does not allow continuous operation. This disadvantage is especially evident in terrigenous (sand) formations.

The technical task of the proposed solution is to increase the productivity of the device by ensuring the possibility of its operation without stopping to cleanse sediment and sludge.

To achieve the technical task, a device consisting of a cylindrical pump casing with a bottom and receiving perforations, a plunger with a discharge valve connected to the rod string, a casing screwed onto the sleeve, which in turn is screwed onto the tubing string and pump housing, shank connected by means of a coupling to the pump housing and having a plug and receiving perforations in the lower part. Moreover, the device is additionally equipped with a removable sludge accumulator (sump) installed in the hole of the cylinder bottom of the pump housing and made in the form of a cylindrical metal cup.

The technical result is achieved by providing the device with a removable sludge storage device, i.e. a sump where the sludge accumulates and is pressed without interfering with the operation of the device.

Figure 1 shows a device for oil production and treatment of the bottom-hole zone of the well, located in the production casing of the well.

The device (Fig. 1) consists of a pump housing 1 with a bottom 2 and receiving perforations 3, a plunger 4 with a discharge valve 5 connected to a column of rods 6, a pump casing 7 screwed onto a coupling 8. The coupling 8 is screwed onto a tubing string pipes 9 and housing 1. The shank 10 is connected via a sleeve 11 to the casing 7 and has a plug 12 and receiving holes 13 in the lower part. Slurry accumulator 14 is installed in the bottom 2 of the cylinder of the pump housing 1 and is made in the form of a cylindrical metal cup. The device is placed in the production casing of the well 15.

The device operates as follows. It is installed in the well 15 at the maximum depth, based on the capabilities of the wellhead equipment for lifting fluid from the well. A shank 10 is attached, attached to the pump casing 8, with a screw-up pipe with a length ensuring the shank is located at the bottom of the well. When the oil level in the well below the level of the perforated holes 3, the annulus is filled with water and the device is put into operation. When selecting oil from the bottom of the annulus, the annulus is periodically replenished with water and the operation to add it is continued until the stable dynamic level of the receiving holes 3 is raised, after which the filling is stopped. Then they switch to conventional oil production, but with simultaneous implosion processing of the bottom-hole zone.

During the course of the column of rods 7 and the associated plunger 4 downward, the valve 5 opens, the openings 3 of the housing of the pump 1 are closed, and oil (or water pre-filled in the annulus and passed through the liner 10) is drawn into the space under the valve 5.

During the course of the column string 6 and the associated plunger 4 upward under the pressure of the fluid located in the tubing, the valve 5 closes and oil is supplied to the string of the tubing 9. The openings 3 are blocked by the plunger 4 and the flow under the plunger does not occur. At the end of the oil pumping cycle, i.e. by the moment of opening the perforation holes 3, the maximum rarefaction occurs under the plunger 4. When opening the perforation holes 3, the oil together with the sludge flows from the shank 10 into the housing 1. In this case, the sludge settles in the reservoir 14 and the liquid (oil) enters the tubing string 9 cleaned from sludge. In this case, first, an impulse depression is created in the liner 10, then an impulse pressure, which is again replaced by a vacuum, etc., at the bottom of the well, thus, implosion is created. The law of pressure changes has a fading character. Pressure pulses are transmitted through the fluid filling the liner 10 to the bottom of the well 15. The fluid in the liner 11 provides a hydrodynamic connection between the bottom and the device. Implosion causes an instant sharp influx of oil from the wellbore, which contributes to the formation of cracks in the rocks and to clean the bottom-hole zone from contamination. There is a simultaneous pumping of oil and processing of the bottom-hole zone of the well. Along the shank 11, not only the transmission of hydraulic pressure pulses to the bottom occurs, but also the suction of oil cleaned from sludge to and above the receiving holes of the pump cylinder.

During operation, the devices that fall into the pump sludge and sludge are mainly deposited in the accumulator 14 and accumulate and compact there, without complicating the operation of the installation. A special stop and cleaning when using the device is not required, and during the next well repair, the underground repair team can at the same time remove the sludge accumulator and clean it.

Thus, in the proposed design of the device for oil production and treatment of the bottom hole zone of the well, contamination (plugging) of the plunger by sludge is prevented, which avoids a special stop of the installation and lifting of the plunger to the surface for cleaning it. This extends the periods of the continuous process of oil production and creates the conditions for a longer and more reliable operation of the device, generally increasing the productivity of the device.

Claims (2)

1. Device for oil production and treatment of the bottom-hole zone of the well, consisting of a cylindrical pump casing with a bottom and receiving perforations, a plunger with a discharge valve connected to a rod string, a casing screwed onto a sleeve that is screwed onto the tubing string and housing a pump, a shank connected by means of a coupling with a casing and having a plug and receiving perforations in the lower part, characterized in that the device is additionally equipped with a removable drive and set in the hole of the bottom of the pump housing and formed as a cup. 2. The device according to claim 1, characterized in that the glass of the sludge accumulator is cylindrical and made of metal.