RU2811215C1 - Downhole pumping unit with cleanable filter - Google Patents

Abstract

FIELD: oil industry.

SUBSTANCE: invention is intended for oil production by installing a sucker rod pump under conditions complicated by the presence of mechanical impurities in the produced product. A downhole pumping unit with a cleanable filter, consisting of a rod pump, a casing and a slot filter, with the rod pump driven by a drive through a string of sucker rods, contains a cylinder, a suction valve, a plunger, and a discharge valve. In the upper part, on the outer surface of the rod pump cylinder, a casing is hermetically sealed, concentrically installed; below the casing fastening in the cylinder, two holes are made to ensure that the outer surface of the slot filter is flushed with a stream of purified liquid supplied by the pump unit; the plunger of the rod pump is made with a length that ensures that the holes are blocked in cylinder during operation of the unit. The casing opposite the slot filter is equipped with screw edges, rigidly connected to the inner side wall of the casing, providing an increase in speed and the creation of a vortex direction to the flow of liquid washed by the filter.

EFFECT: simplified design, improved reliability of operation of a downhole pumping unit with a cleanable filter by ensuring the outer surface of the filter is washed with a stream of purified liquid, increased the speed and creation of a vortex direction to the flow of the liquid washed by the filter, as well as extended service life of the unit.

1 cl, 2 dwg

Description

The invention relates to the oil industry and is intended for oil production by installing a sucker rod pump under conditions complicated by the presence of mechanical impurities in the produced product.

The presence of mechanical impurities in the production of oil wells is one of the main complicating factors. The most common method of protection is the use of barrier filters (perforated pipes, mesh, slot, spring filters). With a high amount of mechanical impurities, barrier filters quickly become clogged, which leads to a decrease in installation productivity and the need for underground repairs.

A self-cleaning filter is known to prevent clogging of pumps (patent RU No. 74956, IPC E21B 43/08, published on July 20, 2008 in Bulletin No. 20), installed on the tubing string and including a coupling, a sub for connecting to a plunger carrying in its cavity, a discharge valve, and a cylinder connected to the filter, characterized in that the filter is a prefabricated structure, equipped with a forced valve located inside, equipped with inlet openings with a mesh protecting them and configured to create a vacuum at the pump intake, causing a hydraulic shock for self-cleaning grids.

The disadvantages of the known device are:

- low reliability of the additional valve located inside the filter, which can become clogged with small mechanical impurities penetrating inside the filter cavity;

- low efficiency, since cleaning the filter requires the creation of a vacuum, which is only possible when the filter is completely clogged; in addition, the pressure drop created by the vacuum is not enough to effectively clean the filter.

A well-known self-cleaning well filter by Yumachikov (patent RU No. 2305756, IPC E21B 43/08, published on September 10, 2007 in Bulletin No. 25), consisting of concentrically located outer, intermediate and inner pipes, while the last two are equipped with holes in the upper part connected to each other by a pipe, while the outer pipe at both ends is connected to the intermediate pipe by ring plugs, characterized in that the inner pipe is equipped with a filter element located in the interval of holes made on this pipe, the same pipe is equipped with a socket and is connected to it by longitudinal ribs, while the bell is located with a gap relative to the intermediate pipe and is equipped with a nozzle in the lower part; in the annular gap between the inner and intermediate pipes, a filter element is placed coaxially with them, made in the form of an inverse truncated cone and attached to these pipes above the upper holes made in them, while the middle holes of the intermediate pipe are made opposite the bell and are equipped with a filter element, the bell is also equipped with a centralizer.

The disadvantages of the known device are:

- a very complex design with internal and intermediate pipes, a filter element in the form of a truncated cone and other non-standard elements;

- high manufacturing costs associated with the complexity of the design.

A self-cleaning well filter is known (patent RU No. 2789218, IPC E21B 43/08, 37/08, published on January 31, 2023 in Bulletin No. 4), made with the possibility of washing without removal and containing a filter assembly, including a filter slot element, a housing with receiving openings and openings for the passage of formation fluid, while the housing is located inside the filter slot element, the upper outer ring sealing the space between the filter slot element and the housing, a plug that closes the housing in the lower part and is made with a groove in the end part for installing the filter element with stop and pressure holes in its lower part, a spool valve with axial channels communicating with the internal cavity of the housing, while the spool valve is installed in the cavity of the plug, a locking screw installed in the plug, fixing the filter slot element, with the receiving holes located in the lower part of the housing , and the spool valve is configured to move from the lower operating position, in which the valve covers the inlet openings, to the upper operating position, in which the axial channels of the valve coincide with the inlet openings, and back, characterized in that it is equipped with a drain unit and connecting pipes, wherein the drain unit is made in the form of a pipe with a hole, and the connecting pipes contain seals, the lower connecting pipe connects the filter and drain units, and the upper connecting pipe connected to the drain unit is designed to be connected to an external sucker rod pump (SRP), while in the flushing mode when lifting the polished rod of the SRP, the upper seals are made with the possibility of partial exit from the seats, and the lower seal is made with the possibility of moving it into the seat.

The disadvantages of the known device are:

- low efficiency, as it leads to clogging of the filter from the inside with deposits from the tubing string;

- low reliability due to the use of a large number of complex elements (spool valve with axial channels, seals, drain unit).

The closest analogue is a deep-well pumping unit (patent RU No. 347450, IPC F04B 47/00, published on August 10, 1972 in Bulletin No. 24), in which a filter is installed at the pump inlet, periodically washed with a reverse flow of liquid. In order to automate the filter washing process, the internal cavity of the latter is connected via a bypass channel to the pump discharge line through a software-controlled pressure reducing valve.

The disadvantages of the known device are:

- washing the filter from the inside with liquid from the tubing leads to additional removal of sediments from the inner surface of the tubing with the washed liquid into the pump, and then into the inner surface of the filter, which leads to clogging of the filter with deposits from the tubing;

- a complex and unreliable design, as it requires periodic shutdown of the wellhead valve and an increase in pressure inside the tubing to activate the bypass valve, which leads to a decrease in the service life of the tubing string.

The technical result of the invention is to simplify the design, increase the reliability of the operation of a deep-well pumping installation with a cleanable filter by ensuring the outer surface of the filter is washed with a stream of purified liquid, increasing the speed and creating a vortex direction to the flow of the liquid washed by the filter, as well as increasing the service life of the installation.

The technical result is achieved by installing a deep-well pump with a cleanable filter, consisting of a rod pump, a casing and a slot filter, while the rod pump, driven by a drive through a string of sucker rods, contains a cylinder, a suction valve, a plunger and a discharge valve.

What is new is that in the upper part, on the outer surface of the rod pump cylinder, a casing is hermetically sealed, concentrically installed; below the casing fastening in the cylinder, two holes are made to ensure that the outer surface of the slot filter is washed with a stream of purified liquid supplied by the pump unit; the plunger of the rod pump is made with length, ensuring the overlap of the holes in the cylinder during operation of the installation, the casing opposite the slot filter is equipped with screw edges rigidly connected to the inner side wall of the casing, providing an increase in speed and the creation of a vortex direction to the flow of liquid washed by the filter.

In fig. 1, 2 shows a diagram of the installation of a deep-well pump with a cleanable filter, where the cylinder is 1, the suction valve is 2, the plunger is 3, the discharge valve is 4, the tubing string is 5, the sucker rod string is 6, the slot filter is 7 , casing - 8, holes in the cylinder - 9, 9 ^' , screw faces - 10, pump unit - 11.

A deep-well pumping installation with a cleanable filter consists of a rod pump, a casing 8 and a slot filter 7, while the rod pump, driven by a drive through a string of sucker rods, contains a cylinder 1, a suction valve 2, a plunger 3 and a discharge valve 4.

In the upper part, on the outer surface of the cylinder 1 of the sucker rod pump, casing 8 is hermetically sealed and concentrically installed.

Below the fastening of the casing 8 in the cylinder 1 there are two holes 9, 9 ^' that provide flushing of the outer surface of the slot filter 7 with a flow of purified liquid supplied by the pumping unit 11, which eliminates the accumulation of deposits from the tubing string 5 inside the filter 7.

The plunger 3 of the sucker rod pump is made with a length that ensures that the holes 9, 9 ^' in the cylinder 1 are blocked during operation of the installation.

The casing 8 opposite the slotted filter 7 is equipped with screw edges rigidly connected to the inner side wall of the casing 8, providing an increase in speed and creating a vortex direction to the flow of liquid washed by the filter 7, which increases the efficiency of filter cleaning and, as a result, increases reliability.

The installation works as follows.

When a deep-rod pump is operated, driven by a drive through a string of sucker rods 6, the product is lifted along the string of tubing pipes 5. When the plunger 3 moves upward, the suction valve 2 opens, the discharge valve 4 closes, and the pump cylinder 1 is filled with the incoming liquid. from the well. When plunger 3 moves down, discharge valve 4 is open, suction valve 2 is closed, liquid from cylinder 1 enters plunger 3 of the pump.

The extracted liquid enters the pump through a slot filter 7 made of triangular wire (the gap is selected depending on the required filtration fineness), mechanical impurities are retained in the filtration holes (slots).

The stroke length of plunger 3 and the placement of holes 9, 9 ^' on cylinder 1 are selected in such a way that plunger 3 overlaps the holes during operation of the installation. If it is necessary to clean the filter 7, the drive is stopped, the plunger 3 is re-adjusted to the lower position to open holes 9, 9 ^' , the pumping unit 11 is connected and the tubing pipes 5 are flushed along the column to wash off mechanical impurities retained in the filtration holes.

The need to wash filter 7 is determined by the characteristic shape of the dynamogram and the decrease in liquid flow.

The advantage of this installation, in contrast to analogues (No. 2789218, 347450), is that the outer surface of the filter is flushed with a liquid flow, which eliminates the accumulation of deposits from the tubing inside the filter.

Thus, the proposed invention simplifies the design, increases the reliability of the operation of a deep-well pumping installation with a cleanable filter by ensuring the outer surface of the filter is washed with a stream of purified liquid, increasing the speed and creating a vortex direction to the flow of the liquid washed by the filter, and also increases the service life of the installation.

Claims (1)

A deep-well pumping installation with a cleanable filter, consisting of a rod pump, a casing and a slot filter, while the rod pump, driven by a drive through a string of sucker rods, contains a cylinder, a suction valve, a plunger and a discharge valve, characterized in that in the upper part , on the outer surface of the cylinder of the rod pump there is a sealed, concentric casing installed, below the fastening of the casing, two holes are made in the cylinder to ensure flushing of the outer surface of the slot filter with a flow of purified liquid supplied by the pump unit, the plunger of the rod pump is made with a length that ensures that the holes in the cylinder are blocked during operation installation, the casing opposite the slot filter is equipped with screw edges, rigidly connected to the inner side wall of the casing, providing an increase in speed and the creation of a vortex direction to the flow of liquid washed by the filter.