RU2294458C1 - Multistage submersible centrifugal pump (versions) - Google Patents

Abstract

FIELD: oil producing industry.

SUBSTANCE: invention relates to multistage submersible centrifugal pumps designed for pumping out formation fluid. Proposed pump contains set of stages assembled on shaft in cylindrical housing. Stages include impellers with necks, driving and driven disks connected by blades, fixed guide-vane assemblies with members forming guide channels. Pump is furnished with partitions installed on bottom of guide channels with slots and radial-thrust bearings provided with races installed on ring base members of guide-vane assemblies and on driven disks on impellers. Impeller fasteners are made in form of pairs of keyways and keys installed separately for each impeller keyways are arranged on driving disks and on shaft of pump, pairs of keyways corresponding to two adjacent impellers are displaced over outer surface of shaft so that their sections are not overlapped by planes including axis of pump shaft. In other design version, partitions are installed additionally on bottom of slots of guide channels.

EFFECT: improved operation reliability.

4 cl, 8 dwg

Description

The invention relates to petroleum engineering, in particular to submersible multistage centrifugal borehole pumps for pumping formation fluid.

Known for directing the apparatus of a centrifugal borehole multistage pump (Utility Model Certificate of the Russian Federation No. 35392, publ. 01/10/2004), which contains the upper and lower disks with a through hole in each, ribs forming guide channels, an annular housing element and an end liner, the upper disk with ribs, an annular case element with an upper disk and an end insert are made in the form of three separate parts, an end insert is adjacent to the lower surface of the upper disk, each rib is made continuously on the upper side and further the lower portion of the lower disc.

The disadvantage of this device is the lack of stabilization of the flow in the guide channels and the appearance of secondary vortices, which reduces the hydraulic efficiency of the pump.

Known multi-stage borehole centrifugal pump (V.N. Ivanovsky, V.I. Darishchev, A.A.Sabirov, etc. Equipment for oil and gas production in 2 parts, part 1, Moscow, 2002. p.356- 359), each stage of which includes impellers with chambers for supplying liquid, a guide apparatus, feed and guide chambers (channels), protective sleeves, support elements for fixing the impellers.

A disadvantage of the known pump is that, due to its large length, it cannot be used in wells with significant curvature.

The closest analogue of the claimed invention is a submersible multistage centrifugal pump with angular contact bearings according to the patent of the Russian Federation No. 2250392, publ. 04/20/2005, which contains a set of steps consisting of impellers and guide vanes assembled on a shaft in a cylindrical housing. The impellers are made with necks, driving disks, connected blades with driven disks, and mounted on a shaft on a common key, fixed guiding devices are made with annular housing elements and ribs forming guide channels, protective sleeves are installed in bores made in the hubs of stationary guiding devices and forming support bearings with protective bushings. Between the impellers and the guide vane, angular contact bearings are installed.

The disadvantage of this pump is that the prototype method of fixing the impellers and protective sleeves on the pump shaft (the key located in the continuous longitudinal groove of the shaft and the grooves of the impellers and protective sleeves) does not prevent axial overflows of the working fluid between the stages of the pump. The pressure of the pump stage is proportional to the square of the rotational speed and, therefore, with an increase in the rotational speed of the shaft, the marked overflows will increase significantly. The presence of overflows leads to a decrease in the volumetric efficiency of the submersible pump and leads to the fact that in the low-flow area the pressure-flow characteristic is not steeply dipping. In addition, in the analogue, a sufficiently large length of the vortex paths between the blades of the impeller and the ribs of the guide vane, which significantly reduces the stability of the fluid flow due to the formation of secondary vortices and reduces the hydraulic efficiency of the pump.

The basis of the invention is the task of developing the design of a submersible multistage centrifugal pump, which allows to reduce the length of the vortex paths between the blades of the impeller and the ribs of the guide apparatus, increase its volumetric and hydraulic efficiency, increase the pressure of the stage, increase the resource characteristics of the pump and significantly reduce the weight and size characteristics of its submersible part.

The problem is solved in that the multistage submersible centrifugal pump contains a set of stages assembled on a shaft in a cylindrical casing, including impellers with necks, drive disks, connected vanes with driven disks, fixed guiding devices with ring casing elements, bores and ribs forming guide channels , mounting elements for impellers and guide vanes, protective sleeves connected to the shaft and included in the bores of the guide vanes, angular contact bearings and support elements for fixing the impellers, the pump being equipped with baffles installed on the bottom of the guide channels with grooves, while the angular contact bearings are made with rings mounted on the ring housing elements of the guide devices and on the driven disks of the impellers, the impeller fastening elements made in the form of pairs of keyways and keys installed in them individually for each impeller, keyways are located on the drive disks and on the pump shaft, pairs of keyways, with tvetstvuyuschie two adjacent impellers are shifted along the outer surface of the shaft so that they do not overlap sectional plane including the axis of the pump shaft.

According to the second option, a submersible multistage centrifugal pump is characterized in that it contains a set of stages assembled on a shaft in a cylindrical housing, including impellers with necks, driving disks connected by vanes with driven disks, fixed guiding devices with ring housing elements, bores and ribs, forming guide channels, mounting parts for impellers and guide vanes, protective sleeves connected to the shaft and included in the bores of the guide vanes, for the sake of flax-bearing bearings and supporting elements for fixing the impellers, and the pump is equipped with partitions mounted on the bottom of the guide channels made with grooves and at the bottom of these grooves, while the angular contact bearings are made with rings mounted on the ring housing elements of the guide devices and on the driven discs of the impellers, the fastening elements of the impellers are made in the form of pairs of keyways and the keys installed in them individually for each impeller, the keyways are located on the uschih disks and on the pump shaft, while a pair of keyways corresponding to two adjacent impellers are shifted along the outer surface of the shaft so that they do not overlap sectional plane including the axis of the pump shaft.

In this case, the protective sleeve of a submersible multistage centrifugal pump is made of carbide material, for example, tungsten-nickel alloys.

A distinctive feature of the pump is the installation of partitions at the bottom of the guide channels with grooves and at the bottom of these grooves in addition to the ribs of the guide channels, which helps to stabilize the flow in these channels, eliminate secondary vortices and increase the hydraulic efficiency of the pump by reducing the length of the vortex tracks between the impeller vanes and ribs of the guide vane.

Another distinctive feature of the pump is the individual fastening of each impeller by pairs of keys installed in the keyways on the drive disks and on the pump shaft (unlike the common keyway in the analogues), which eliminates the leakage of working fluid between adjacent pump stages, thereby increasing the volumetric The efficiency of the pump and to ensure the discharge-pressure characteristic of the pump is steeply falling in the field of small flows (increase the pressure of the stage).

Unlike analogues, there are also signs regarding the performance of angular contact bearings with rings mounted on the ring housing elements of the guide vanes and on the driven disks of the impellers, as well as the placement of a pair of keyways on the shaft. This design further prevents axial flow of the working fluid between the stages of the pump.

A distinctive feature regarding the construction of protective sleeves of a submersible multistage centrifugal pump made of carbide material (tungsten-nickel hard alloys) in combination with other essential features allows to increase the resource characteristics of the pump, because an increase in the rotational speed of the pump shaft entails increased wear of the rubbing surfaces.

In the first embodiment of the pump, it is equipped with partitions installed on the bottom of the guide channels with grooves to reduce the length of the vortex paths between the impeller blades and the ribs of the guide apparatus.

In the second embodiment of the pump design, it is equipped with partitions installed on the bottom of the guide channels made with grooves and at the bottom of these grooves, further reducing the length of the vortex paths between the impeller blades and the ribs of the guide apparatus, which is necessary to increase the pressure of the stage at low flow rates of the pumped liquid .

The invention is illustrated by drawings, in figure 1 which shows three sequentially installed stages of a submersible multistage centrifugal pump, figure 2 shows a section along aa in figure 1, figure 3 shows a guide apparatus in which partitions are installed on the bottom of the guides channels, in Fig.4 shows a guide apparatus in which partitions are installed at the bottom of the guide channels and at the bottom of their grooves, Fig.5 shows a guide apparatus from the side of the impeller, Fig.6 shows the impeller assembly, Fig.7 shows a variant of displacement on the outer surface of the shaft of the pairs of dowels corresponding to two adjacent impellers, Fig. 8 shows a section along BB in Fig. 7.

A submersible multistage centrifugal pump contains a set of stages assembled in a cylindrical housing 1 on the shaft 2. The stages include impellers 3 with necks 4, leading 5 disks connected by blades 6 with driven 7 disks. The leading 5 and driven 7 disks, as well as the blades 6 form the channels of the impellers 3. The channels of the impellers, on the one hand, are connected to the necks of 4 driven 7 disks, and on the other, are directed to the guiding devices 8. The pump stages also include fixed guiding devices 8 with annular housing elements 9, bores 10 and ribs 11 forming guide channels 12. The impellers 3 are fixed to the shaft by 2 pairs of dowels 13 installed in the keyways 14 and 15 individually for each impeller 3. The keyways 14 are located on and the leading 5 disks, and the keyways 15 are located on the shaft 2 of the pump. Each pair of dowels 14 and 15 transmits torque from the shaft 2 to the impellers 3 and the protective sleeves 16. The bores 10 of the guide devices 8 include protective sleeves 16 connected to the shaft 2. The bores 10 of the stationary guide devices 8 with the protective sleeves 16 form sliding bearings (radial plain bearings), which fix the longitudinal position of the impellers 3. At the bottom 17 of the guide channels 12 of the guide devices 8, partitions are installed 18. The guide channels 12 are made with grooves 19, at the bottom of which 20 partitions 21 are installed On the annular housing elements 9 of the guide vanes 8 and on the driven 7 drives of the impellers 3, the rings 22 and 23 of the angular contact bearings 24 are installed. The rings 22 are mounted on the annular housing elements 9, for example, by means of the supporting disks 25.

Submersible multistage centrifugal pump operates as follows.

The flow of formation fluid is created by the action of rotating blades of the impeller of the stage, driven by the pump shaft. The reservoir fluid through the inlet channels and the neck of the impeller enters the space between the leading and driven discs. As the radial movement in the space limited by the disks and blades of the impeller, the energy of the fluid increases due to the work performed by centrifugal forces, and the increase of the tangential component of the fluid velocity. Next, the liquid enters the guide channels of the guide vane, in which part of the kinetic energy of the flow is transformed into potential, i.e. the creation of additional pressure and the direction of flow to the next impeller. Through the guide channels, ribs and partitions of the guide vane, the working fluid enters the inlet of the next stage.

When the rotor shaft of the pump rotates, radial forces act on it, which are perceived by the radial plain bearings formed by the protective bushes and the bores of the guide vanes. At the same time, plain bearings play the role of seals separating the high-pressure cavity from the lower-pressure cavity in the previous stage. Angular contact bearings perceive axial forces acting on the impellers, and at the same time perceive radial forces acting on rotor imbalance and other factors. The angular contact bearing due to the structural design of the rings — installation on the annular housing elements of the guiding devices and on the driven disks of the impellers — unloads the radial bearings of the pump shaft and at the same time prevents axial flow of the working fluid between the pump stages.

The implemented cycle allows to increase the specific energy of the reservoir fluid (pressure) by stabilizing the flow in the channels of the guiding apparatus and preventing axial flow of the working fluid between the stages of the pump.

Claims (4)

1. Submersible multistage centrifugal pump, characterized in that it contains a set of stages assembled on a shaft in a cylindrical housing, including impellers with necks, driving disks connected by vanes with driven disks, fixed guiding devices with ring housing elements, bores and ribs, forming guide channels, mounting parts for impellers and guide vanes, protective sleeves connected to the shaft and included in the bores of the guide vanes, radial bearings bearings and support elements for fixing the impellers, and the pump is equipped with baffles installed on the bottom of the guide channels with grooves, while the angular contact bearings are made with rings mounted on the ring housing elements of the guide devices and on the driven disks of the impellers, mounting parts of the impellers made in the form of pairs of keyways and keys installed in them individually for each impeller, keyways are located on the drive disks and on the pump shaft, pairs of keyways wok corresponding to two adjacent impellers are shifted along the outer surface of the shaft so that they do not overlap sectional plane including the axis of the pump shaft. 2. The pump according to claim 1, characterized in that the protective sleeve of the submersible multistage centrifugal pump is made of carbide materials, for example, tungsten-nickel alloys. 3. A submersible multistage centrifugal pump, characterized in that it contains a set of stages assembled on a shaft in a cylindrical housing, including impellers with necks, driving disks connected by vanes with driven disks, fixed guiding devices with ring housing elements, bores and ribs, forming guide channels, mounting parts for impellers and guide vanes, protective sleeves connected to the shaft and included in the bores of the guide vanes, radial bearings bearings and support elements for fixing the impellers, and the pump is equipped with partitions installed at the bottom of the guide channels made with grooves and at the bottom of these grooves, while the angular contact bearings are made with rings mounted on the ring housing elements of the guide devices and on the driven disks of impellers, fastening elements of impellers are made in the form of pairs of keyways and keys installed in them individually for each impeller, keyways are located on drive disks and simultaneously pump shaft, a pair of keyways corresponding to two adjacent impellers are shifted along the outer surface of the shaft so that they do not overlap sectional plane including the axis of the pump shaft. 4. The pump according to claim 3, characterized in that the protective sleeve of the submersible multistage centrifugal pump is made of carbide materials, for example, tungsten-nickel alloys.

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