Patent Application
20190219049
The present patent application claims priority to Ukrainian patent application a201800500 filed Jan. 17, 2018, Ukrainian Utility Model application u201800501 filed Jan. 18, 2018, Russian Utility Model application 2018110666 filed Mar. 26, 2018.
The invention relates to reciprocating piston pumps, in particular, to a reciprocating double acting well pump driven by a linear submersible permanent magnet motor.
General approach to recovered borehole fluid ascent to the surface includes utilization of a displacement pump driven by a mechanical drive.
There exists a distinction made for sucker-rod pumps, reciprocating of which is provided by a sucker-rod string. The sucker-rod pump unit consists of the displacement pump located at the bottom of an oil well tubing. The unit includes a piston moving linearly within the oil well tubing by means of steel or fiberglass rods. Linear movement of the pump rods is transmitted from the surface by means of a beam-type construction, designed to ascend and descend alternately the pump rods, thereby ensuring reciprocating movement of the pump piston.
The main disadvantage of this design is that most of wells are not straight and can deviate in different directions on their way to a production zone. Presence of deviations in a well direction causes friction between the pump rod and oil well tubing, which leads to their excessive wear and tear. Which results in high cost of structural elements replacement. In addition, presence of friction between the pump rod and oil well tubing requires utilization of motors of a higher efficiency.
An ordinary solving of this problem involves utilization of well pumps installed in the lower part of the oil well tubing. This kind of equipment includes downhole reciprocating double-acting pumps. A generic aspect of such pumps is that both strokes of a pump plunger are operational in order to maximize the efficiency of an electric motor during the reciprocating movement of the well pump. Major disadvantages of currently known pumping plants include significant losses of borehole fluid, malfunctions associated with presence of gas and mechanical impurities in the borehole fluid and restrictions regarding operability in wells with an inclination angle of more than 40°.
Claim for Invention US20150176574A1 dated Jun. 25, 2015, sets out a reciprocating downhole sucker-rod pump connected to a motor connector, for example, by a threaded or bolted flange couplings. The pump comprises an enclosure cylindrical and concentric on the axis. The pump includes an upper valve unit, comprising an upper intake port, and a lower valve unit; the cylinder is located concentrically between the upper valve unit and the lower valve unit within the pump enclosure. The upper valve unit is connected to the oil well tubing and has a pump outlet passage, that intercommunicates with an inner part of a pipeline. The enclosure and cylinder form a pump annular space between them. The pump piston or plunger interacts with the inner diameter of the cylinder providing ability of sliding. A crosshead beam is connected to the lower end of the plunger, causing reciprocating of the plunger with a moving part of the motor. Depending on the plunger stroke direction, the upper or the lower valve unit is activated, which provides supply of borehole fluid into a pump cylinder cavity, upon which it is brought to the surface by means of an annular channel in the oil well tubing.
Disadvantages of the described technical solution may include complexity of the design with arrangement of four valves and additional connecting-rod elements, which increases the installation dimensions and makes it complex to be manufactured.
Patent of Invention U.S. Pat. No. 6,817,409 dated Nov. 16, 2004, Int. Cl. F04B11/00, sets out a double-stroke piston pump installed in a borehole, driven by a linear drive, comprising an enclosure and a pumping plunger pair cylinder placed inside of it, with an annular cavity located in-between. The pump is capable to extrude the volume of the pumping plunger pair cylinder, by means of reciprocal motion of the plunger with a traveling valve connected to a moving part of the linear drive, providing that both strokes of the plunger are operational. According to the described design, the pump contains the plunger, traveling in reaction to the linear drive reciprocating. The pump is configured to supply the first volume of liquid to a well during an upward operational stroke of the pump and the second volume of fluid during a downward stroke. The pump piston is installed between the enclosure and the plunger so as to form an annular space between the plunger and the piston and an annular space between the enclosure and the piston. Also, the plunger design provides at least one through hole located between the piston and the lower portion of enclosure in order to create a fluid communication between a piston channel and the annular space arranged between the enclosure and the piston. Consequently, the fluid is being forced out from the annular space through at least one through hole of the plunger into the oil well tubing string during the plunger stroke.
Disadvantages of the described technical solution may include presence of a complex system of channels designed for fluid transmission, as well as a small volume of the borehole fluid supplied through the holes of the plunger. The disadvantages may also include the borehole fluid intake performed without gas withdrawal and filtration.
RU139596 Utility Model Patent dated Apr. 20, 2014, Int. Cl. F04B47/08, sets out a double-acting well pump driven by a linear drive containing a pump module with a reversing and inlet valves, as well as two successively mounted plunger pairs of different diameters, driven by the linear drive and capable to provide an ability to force the internal volume of the borehole fluid out by means of reciprocal motion of the linear drive. One of the plunger pairs is equipped with a traveling valve and forms an annular cavity with a pump module enclosure, providing that both plunger strokes are operational. The plunger pairs of the pump module are interconnected with a connecting rod. Diameter of the upper plunger cylinder is greater than diameter of the lower plunger cylinder. The upper plunger of a greater diameter is hollow and contains an installed discharge valve, the lower plunger of a smaller diameter is monolithic and connected by a polished rod with the working pump drive. The cavity located above the hollow plunger of a greater diameter is connected to a drill-string-borehole annulus through a suction valve. The cavity located under the monolithic plunger of a smaller diameter is permanently connected to the drill-string-borehole annulus. The cavity located under the upper hollow plunger of a greater diameter is connected to the cavity located above the lower monolithic plunger of a smaller diameter and with a bypass passage formed by a shell enclosing the upper larger cylinder from the outside; the bypass passage is connected to a pump flowout line.
Disadvantages of the described technical solution may include presence of harmful effect of gas and mechanical impurities contained in the borehole fluid due to filtration and gas separation non-availability, complexity of the construction due to a spaced-apart arrangement of the plunger pairs with a system of channels in valve units for fluid transmission, which can lead to their wax precipitation, also the pumping unit design does not allow its utilization in wells with an inclination angle of more than 40°.
The claimed invention aims solving a technical problem constituting creation of the double acting linear electric submersible pumping unit with increased productivity and simplified construction actuated by the linear drive in the form of a movable part (slider) of linear submersible permanent magnet motor, providing a possibility of raising the borehole fluid without no-load operation of the movable part and a possibility of operation in horizontal wells.
The technical result achieved from the invention embodiment consists in simplifying of the construction with simultaneous increase in pumping unit productivity, reducing concentration of mechanical impurities of the borehole fluid and non-associated gas at a pump module suction, as well as in enhancement of the pumping unit operation in wells with an inclination angle of more than 40°, particularly in horizontal wells.
The essence of the claimed invention lies in a fact that the upper pumping plunger pair of the pump module of the double acting linear electric submersible pumping unit is configured to intake a double volume of borehole fluid sufficient for one operating cycle and contains the delivery traveling and inlet fixed spool valves, both with a directional neck, closing by straight oncoming flow of borehole fluid. Also a separator of downward and upward flows of the borehole fluid with low and high-pressure passages is installed above the cylinder of the pumping plunger pair. Wherein the low-pressure passages are performed in fluid communication with a borehole fluid delivery port from the annular space, containing filtration and gravitational gas separation zone. Volume of the gravitational gas separation zone is greater or equal to the volume of one operating cycle of the pump module. Wherein the plunger of the lower plunger pair is partially accommodated in the pumping plunger pair cavity while forming the annular cavity and is capable to execute labyrinth sealing of the linear drive movable part.
The annulus located between the pump module enclosure and the outer surface of the cylinder of the pumping plunger pair is connected to the annular cavity formed by the plunger of the lower plunger pair by means of a common volume arranged between the plunger pairs.
The borehole fluid filtration zone is arranged within the lower plunger pair; the borehole fluid periodically fills the cavity in the pump module enclosure formed by the difference in radial dimensions of the plunger and the linear drive connected to it.
A method of operation of the double acting linear electrical submersible pump comprises:
The essence of the claimed invention is explained, but is not limited to the following images:
Pump module 1 contains enclosure 3 of a high pressure and of a cylindrical form with reversing 4 and inlet 5 valves; two plunger pairs 6, 7 are arranged on-line inside of the enclosure, driven by the linear drive capable to force out the internal volume of the borehole fluid due to the reciprocal motion of the linear drive. Upper pumping plunger pair 6 contains delivery traveling gravity or spool valve 8 and inlet fixed gravity or spool valve 4 installed in the upper portion of its cylinder, both with the directional pusher, and both of which are closed by the oncoming flow of the borehole fluid. Also the pumping plunger pair forms annular cavity 9 with the pump module enclosure. Stroke of the pump module plungers in both directions is operational.
Upper pumping plunger pair 6 with integrated traveling delivery 8 and fixed inlet 5 valves is connected to lower plunger pair 7 of a smaller diameter by means of its plunger. The mentioned plunger pair is also designed as the labyrinth sealing to prevent losses of the borehole fluid and protect the linear drive from abrasive wear due to mechanical impurities effect and allows to increase the plunger stroke of the pumping plunger pair with increasing the pump module productivity.
Lower plunger pair 7 is connected to linear drive 2, and its plunger 10 partially located inside of the cavity of cylinder 11 of upper pumping plunger pair 6 with forming annular cavity 12 under its plunger 13. Herewith annular cavity 12 is executed in fluid communication with annular cavity 9, arranged between the pump enclosure and outer surface of the pumping plunger pair cylinder by means of common volume 14, arranged between the plunger pairs. Flow separator 15 of downward 16 and upward 17 flows of the borehole fluid with low-pressure 18 and high-pressure 19 passages respectively is installed above the cylinder of pumping plunger pair 6. Wherein the low-pressure passage is executed in fluid communication with channel 20 of borehole fluid feed from the annulus, that includes zone 21 of filtration with arranged filters
And gravitational gas separation zone 22, volume of which is greater or equal to the volume of one operating cycle of pump module 1. The volume of one operating cycle is determined by the volume of fluid forced out during a single upward and downward stroke of plungers of the pumping module. Additional reversing valve 4 preventing a drain back of the borehole fluid from the oil well tubing is installed at an output of the pump module in a place of its connection to the oil well tubing string (not shown on the figures). Traveling 8, inlet 5 and reversing 4 valves are executed as valves with a directional pusher 25 and are capable to be closed instantaneously by straight oncoming flow of the borehole fluid, which provides reliable operation of the section isolation valves. Consequently, it is possible to significantly simplify the design of the pump module and avoid losses of the borehole fluid as against utilization of gravity valves, used in corresponding patents.
Borehole fluid filtration zone with filters 23 is arranged within the lower plunger pair for filtration of the borehole fluid, periodically filling cavity 24 in the pump module enclosure formed by the difference in radial dimensions of plunger 10 and linear drive 2 connected to it.
It should also be noted that the radial dimensions of plunger pairs 6 and 7 are assorted in a manner providing approximate equality of the liquid volumes pumped during upward and downward strokes.
According to said invention, traveling 8, inlet 5 and reversing 4 valves with directional pusher rod 25 which contacts with locking element 26 and closed by the straight oncoming flow of the borehole fluid.
Pump module valves (FIG.3) comprise cylindrical body 27 with locking element 26 inside of the cylindrical body, that is made in form of a ball. A motion of locking element 26 is enabled by means of hollow pusher rod 25 with a plurality of recirculation holes 28 crossing a body of the pusher rod with an angle to its central axis. Said embodiment providing that an area of increased hydraulic resistance is arranged within the pusher rod cavity 29, which creates a hydraulic pressure necessary for a translation movement of the pusher rod.
According to another variant of invention (FIG.4), pump module valves comprise a cylindrical body 30 with locking element inside of the cylindrical body, which made in form of directional neck 31 with sealing cone 32, closing by a straight oncoming flow of the borehole fluid, named locking element is made in solid-metal form and consists on parts with a variable radial cross section.
The locking element inside of the cylindrical body is made of materials with variable hardness. For example, locking element 26 is made of a material, hardness of which is greater than a hardness of pusher rod 25 in preferred variant of implementation (
The method for operation of the Double Acting Linear Electrical Submersible Pump utilizing the pump module of the described design involves lowering of the said pump module together with the installation into a well and filling it with the borehole fluid with its subsequent displacement into the oil well tubing string cavity by means of reciprocal motion of plunger pairs 6, 7 connected to movable part of linear drive 2, while both plunger strokes are operational.
The borehole fluid intake from the annulus is conducted during the downward stroke (
Also during the upward and downward strokes constant circulation of the borehole fluid is performed within lower plunger pair 7 (as shown in
An embodiment of the claimed invention contributes to achievement of the mentioned technical result by providing simplification of the design while increasing the productivity of the pumping unit utilization by using the set of valves with absence of a complex system of channels for borehole fluid passage, which allows to regulate the fluid motion within the pump module cavity without losses even with its horizontal positioning in a well. Also the arrangement of filtration and gravitational gas separation zones provides possibility of protection from harmful effect of gas and mechanical impurities, containing in the borehole fluid.
The claimed method provides various options and alternative forms of embodiment. A particular embodiment is disclosed in the description and illustrated by means of the given graphic materials. Described embodiment of the invention is not limited to a particular disclosed form and may encompass all possible embodiments, equivalents and alternatives, within the limits of essential features disclosed in the claim.
| Number | Date | Country | Kind |
|---|---|---|---|
| A201800500 | Jan 2018 | UA | national |
| U201800501 | Jan 2018 | UA | national |
| 2018110666 | Mar 2018 | RU | national |
