RU2463441C1 - Downhole self-cleaning pump assembly unit - Google Patents

Abstract

FIELD: oil-and-gas production.

SUBSTANCE: proposed device comprises filter incorporated with electrically driven rotary pump, jet pump arranged there above, casing arranged there aligned and provided with holes in its bottom. Filter comprises hollow casing, splined shaft, filtration element shaped to truncated cone secured to cover annular clearance between hollow casing and concentric casing. Casing side surfaces have holes arranged ahead of filtration element edges. Rotary pump output makes 70% of well output. Jet pump output makes 30% of well output.

EFFECT: increased MTBR, higher efficiency of reservoir fluid cleaning.

3 dwg

Description

The invention relates to the mining industry and is intended to protect a borehole electric centrifugal pump from mechanical impurities receiving at the same time with the removal of these impurities with formation fluid to the surface.

Known block filter for a submersible centrifugal electric pump containing a base, a head and a filter unit mounted between them, the filter unit consists of one or more filter sections made with the possibility of replacement, while the base and each filter section contain a housing installed in each housing with the shaft can be rotated, at one end of which a spline coupling is installed, and the other end of the shaft is equipped with spline elements for connecting to the counterparts of the spline couplings of the attached each filter section is equipped with a nipple and an adapter connected to the perforated housing with openings for the passage of liquid and a filter element installed between the nipple and the adapter, the adapter and the nipple contain connecting surfaces for connecting the filter section to the base or previous filter section and the head or subsequent filter section respectively [1].

The disadvantage of the prototype is the design complexity, in particular the presence of several coaxial shafts, the open surface of the filter elements, which can lead to damage when they are lowered into the well, fast blockage of filter elements with mechanical impurities and the inability to clean them without lifting to the day surface, which significantly reduces the operating time the failure of the electric centrifugal pump and contamination of the well due to the discharge of solids into the sump.

A well-known self-cleaning well filter Yumachikova, consisting of three concentrically arranged pipes of different diameters, the last two in the upper part are connected by a pipe and provided with holes, the inner pipe is equipped with a filter element located in the interval of holes on this pipe, the same pipe is equipped with a socket and is connected with it by longitudinal ribs, while the bell is located with a gap relative to the intermediate pipe and provided with a nozzle in the lower part, in the annular gap between the inner and intermediate pipes coaxially them arranged a filter element made in the form of reverse truncated cone and attached to the data pipes above the upper holes formed on them, the average hole formed opposite the intermediate pipe socket and provided with a filter element, the socket is also provided with centralizer [2].

The disadvantage of this filter is the design complexity, additional tripping operations when installing and lifting it from the well, preparation of the production casing if it is suspended on a packer is required.

The closest solution taken as a prototype is a pumping unit for pumping a well, including submersible and water-jet pumps in such a way that the water-jet pump is installed above the submersible pump and connected to its outlet through the nozzle into the water-lifting composition of the water supply pipes of the water-jet and submersible pumps, while the unit is additionally equipped with a housing in the form of two concentrically arranged pipes, the annular space between which forms the suction channel of the water-jet pump, connected to its continuing an additional lower assembly of the pumping unit with the pipe, and the submersible pump is located in the center of the inner pipe of the housing, forming between its lateral outer surface and the inner surface of this pipe a suction channel of the submersible pump, which is connected by windows made opposite to each other in both pipes in the lower part of the housing, with the space formed by the wall of the well and the outer pipe of the body, for which the opposite windows in both pipes are connected by tubular elements with the possibility of overlapping the annular space the distance between the pipes so that their length is equal to the distance between the pipes plus the thickness of the outer pipe, and the total area of the windows is equivalent in liquid resistance to the area of the suction channel of the submersible pump, while the cross-sectional area along the outside diameter of the pipes of the additional lower assembly of the pumping unit is equal to the minimum for the entire water-jet pump, providing, together with the maximum distraction of the suction stream of the water-jet pump, the flow rate of water at which particles that pose a risk of abrasion, do not fall into the submersible pump [3].

The advantage of the prototype compared to analogues is the reduction in the amount of mechanical impurities in the part of the formation fluid pumped by the electric centrifugal pump, the selection by the jet pump installed above the electric centrifugal pump, the part of the formation fluid passing by the electric centrifugal pump and containing a greater amount of mechanical impurities, lifting the mixture of parts of the formation fluid with lower and greater concentration of mechanical inclusions through pipes at the mouth.

The disadvantages of the prototype are the likelihood of mechanical impurities getting into the electric centrifugal pump and the associated wear of the pump parts, overheating of the underground electric motor due to jamming of the turbines. The inner tube of the additional housing, which is concentrically located in the interval of the entire pumping unit from above, eliminates the possibility of using the prototype in oil wells.

The objective of the invention is to increase the mean time between failures of the pump assembly, including cleaning part of the formation fluid pumped by the electric centrifugal pump, increasing the overhaul period of the well due to the constant self-cleaning of the filter, raising the mixture of the cleaned and uncleaned part of the formation fluid passing by the assembly and containing mechanical impurities at the wellhead.

The solution to the problem includes protecting the borehole electric centrifugal pump of the assembly from mechanical impurities entering its receiving module, transferring these impurities to the uncleaned flow of formation fluid moving past the assembly to receive the jet pump.

The technical result is achieved by the fact that the self-cleaning borehole pump assembly includes a filter as part of an electric centrifugal pump installation and a jet pump mounted above it, a concentric casing provided with holes in the lower part, the filter includes a hollow housing with flanges, a spline shaft, a filter element, made in the form of a truncated cone, fixed with the possibility of overlapping the annular gap between the hollow body and the concentric casing, while concentrically of the put casing, holes are made in front of the upper edges of the filter element, the performance of the installation of an electric centrifugal pump is 70% of the well rate, the productivity of the jet pump is 30% of the well rate.

The essence of the invention lies in the fact that the part of the reservoir fluid that passes through the filter into the receiving module of the electric centrifugal pump (ESP), immediately in front of the filter element, is divided into two streams due to the selection of the ESP with a capacity equal to 70% of the well flow rate in liquid, the part of the flow that does not arrive at the ESP comes out of the filter through openings on the side surface of the concentric casing, washing particles of mechanical impurities from the surface of the filter element into an annular gap between zhuhom and production tubing through which fluid flow from mechanical impurities is mixed with a stream of unpurified part of the formation fluid, which passes the filter and enters the intake of the jet pump, through which the mixture pieces of purified and unpurified from mechanical impurities up the tubing to the wellhead.

The invention is illustrated in the drawing, where figure 1 shows a partial longitudinal section of a pumping arrangement of a borehole self-cleaning; figure 2 is a section aa in figure 1; figure 3 presents the operation diagram of the pumping arrangement of the borehole self-cleaning. In the figures conventionally shown production casing (EC), an elevator casing (LC), cable (K) of the underground electric motor.

The pump arrangement consists of a filter (1), an electric centrifugal pump installation, including an electric motor (2), a tread (3), an input module (4), a centrifugal pump (5), a gas separator (not shown) placed between the module (4) and the pump ( 5), a jet pump (6), a casing (7) with lower holes (8) and side holes (9). The filter (1) includes a hollow body (10), flanges (11), a spline shaft (12), a filter element (13), made in the form of a truncated cone.

The arrangement operates as follows (Figure 3).

The reservoir fluid, rising along the pump assembly, immediately before the filter (1) is divided into two parts, while one part passes through the filter (1), the other part rises along the annular gap between the casing (7) and the production string (EC) towards the jet pump (6), a part of the liquid passing through the filter (1) enters into it through openings (8) and, moving upward, passes through the filter element (13), then the liquid purified from mechanical impurities enters the receiving module (4) centrifugal pump (5) in a volume equal to ESP flow rate, which in this arrangement is equal to 70% of the well’s liquid flow rate, while the part of the liquid that does not enter the receiving module (4) of the centrifugal pump (5) leaves the filter (1) through the side holes (9) of the casing ( 7), while washing particles of mechanical impurities from the surface of the filter element (13) into the annular gap and rises along the assembly, mixing with the crude part of the reservoir fluid passing by the filter (1), and is sucked into the jet pump (6) through which the mixture refined and untreated reservoir fluid STI on the elevator column (LC) rises to the mouth.

Technical characteristics of the layout elements, for example, for a well with a flow rate of 100 m ³ / day, productivity: - installation of an electric centrifugal pump - 70 m ³ / day .; - jet pump 30 m ³ / day .; the duty cycle of the filter element is equal to at least three areas of the duty cycle of perforation of the input module of the centrifugal pump, while conventional electric centrifugal pumps are used.

In January 2011, the average MTBF of the downhole equipment in the Tyumen region (including the Khanty-Mansiysk and Yamalo-Nenets okrugs) averaged 450-500 days with a potential resource of equipment, for example, the installation of an electric centrifugal pump, equal to 1200 days or more, thus , for a period equal to the resource of one electric centrifugal pump, two more new electric centrifugal pumps are used, because of the failure of the first two due to the negative influence of mechanical impurities contained in the reservoir th fluid.

The use of a self-cleaning borehole pumping arrangement will increase the MTBF to the potential resource, while the economic effect will be at least 5 million rubles. per well, due to an increase of two or more times between the failure to install an electric centrifugal pump and the exclusion of at least three stops of the well for cleaning and repair, as well as by eliminating the loss of production fluid during downtime.

Currently, work is underway on the manufacture of a prototype layout and pilot industrial testing of wells.

Information sources

1. Patent for the invention RU No. 2395014 C1 IPC F04D 29/70,

2. Patent for invention RU No. 2305756 C1 IPC E21B 43/00.

3. Certificate for utility model RU No. 27171 U1 IPC F04D 13/10 2002 - prototype.

Claims (1)

The self-cleaning borehole pump assembly, comprising a filter as part of an electric centrifugal pump installation and a jet pump installed above it, a concentric housing with holes in the lower part, characterized in that the filter includes a hollow housing with flanges, a spline shaft, and a filter element made in the form a truncated cone, fixed with the possibility of overlapping the annular gap between the hollow body and concentrically located casing, while on the side surface concentrically located to Zhuhai openings to the upper edges of the filter element, the installation performance electrocentrifugal pump flow rate is equal to 70% of the well jet pump performance equal to 30% of the well flow.

Images