RU31618U1 - Submersible rodless electric pump with differential dispersant attachment - Google Patents

Abstract

1. Submersible rodless electric pump with a differential attachment-disperser, comprising a module-section of the pump, an engine with hydraulic protection and a differential attachment connected to the pump on the one hand and to the hydraulic protection of the engine - on the other hand and made in the form of several sections of working steps integrated into the attachment case different capacities installed one above the other, each of which has a receiving channel for entering the gas-liquid mixture section from the annulus of the well, which are hydraulically they are interconnected to supply a gas-liquid mixture from the impellers of the lower section to the impellers of the upper section, characterized in that in all sections of the differential attachment in the drive disk of each impeller there are holes for dispersing the oil-gas mixture. 2. The device of claim 1, characterized in that the diameters of the holes in the impellers of the differential set-top boxes are made decreasing from the lower section to the upper.

Description

Differential submersible electric pump with differential attachment The useful model belongs to the field of operation of the cKB iaFffl and non-bogged electric pumps.

Known footless non-gang-type electric pump containing a module section of the pump, which with the help of the base is connected to the hydraulic valve of the engine, and with the power of the pump head is connected to the lower pipe of the pump and compressor pipes. The water-oil and gas mixture is nostun into the module-section of the pump from the routing wellbore through the receiving channel of the pump base and further into the tubing. See “Interphase Translator. Installation of submersible centrifugal pumps for oil production, M.Tehnoneftegaz. 1999.S. 89-163.

A disadvantage of the known pumps is the decrease in the efficiency of their operation when pumping water-oil and gas and viscous mixtures, foamy oil.

Known submersible rodless electric pump containing a hydraulic motor and a pump module section, consisting of the main stages of the impellers and guides and built into the housing in front of the main stages of the impellers of the pump module module of the stages of the impellers and rails with greater productivity than the performance of the main stages of the module-section of the pump, in which holes are made in the three or more lower, built-in steps, which are more productive in the driving disks of the impellers, between the blades.

Utility model No. 25552 “Submersible, pressureless electric pump according to the application No. 2002105768 (006567) F04D 13/10 of 03/11/02.

The disadvantage of this device is that the dispersion efficiency of the oil-gas mixture in these working steps is low compared to the proposed device.

The closest solution to the claimed one is a footless footless electric pump containing an engine with hydraulic protection, imcoca module differential attachment connected to imcocy on the one hand and to the engine hydraulic protection on the other hand and implemented in the form of several sections of different capacities built into the console of the console installed one on top of the other , each of which contains a package of steps of the impellers and guides, which are hydraulically connected with each other and with the pump, while the performance of the steps the wheels of each package of stages of the set-top box are made increasing along the gas-liquid mixture from the lower package of stages to the upper package of stages, and each section of the differential set-top box and the module section of the pump are equipped with receiving channels for receiving the gas-liquid mixture from the annulus of the well, see utility model No. 24251 F04D 13/10 from 07/27/02.

MnK8F04Di3 / 10

disperser. “Submersible, non-slip electric pump.

The disadvantage of this device is that the dispersion efficiency of the oil-water mixture in differential distribution occurs to a lesser extent than in the proposed device.

The objective of this utility model is to increase the dispersion efficiency of a water-oil and gas mixture.

This problem is solved by the fact that, in contrast to the known pump containing a pump module, a hydraulic motor and a differential attachment connected to the pump on the one hand and to the hydraulic protection of the motor on the other hand and made in the form of several sections of working steps of different conductivity, installed one above the other, each of which has a receiving chamber for entering the gas-fluid mixture from the extra-annular space of the well, which are hydraulically connected between at a feed liquid mixture from the lower section of impellers - impellers in the upper section, in all sections differential pristuki, a leading disk of each impeller are made holes for dispersing vodoneftegazovoy mixture.

The holes are made with various diameters from 3 to 6 mm, depending on the performance of the impellers of the differential attachment. In this case, the diameters of the holes in the impellers of the differential set-top box are made decreasing from the lower section to the upper.

If there is a gas-liquid mixture “GHS, free gas at the pump intake, dividing the total volume of GHS in the annulus of the wells into several streams of smaller volumes, the gas sensation coefficient in the ZEGrub well, reduces the gas content of the liquid entering the pump, as well as the presence of three sections with working degrees, in which the productivity increases from the lower section to the upper, and the diameters of the openings in the impellers are reduced, they provide multiple, more efficient dispersion of the GHS in the “DP, bringing it to a quasi-homogeneous state, it increases the fill factor of the pump, provides a more stable without disrupting its supply.

The presence of several receiving channels in the DP reduces the likelihood of simultaneous clogging of the receiving channels of all sections of the working stages of the DP and the receiving channel of the pump module section.

In addition, the process of clogging the receiving channel as one of the upper section "DP, module-section of the pump is slowed down due to the pressure of the GHS of the impellers of the lower section" DP.

g

side. “DP is made in the form of three prefixes built into the housing 4, installed one on top of the other, each of which has a package of steps 5 of impellers 6 and guiding devices 7 of different capacities, each subsequent package of steps of the fastener after the bottom has a receiving cell 8 with a guide sleeve 9 for entering into it a gas-liquid mixture from the annulus of the well.

The guide sleeve 9 of the receiving cage 8 in each package of steps 5 is made at an angle of 45 to the longitudinal axis of the console. Inside the receiving cell 8 there is a pscndric sleeve 10 and a sealing element 11, made in the form of a metal plug and located between the outer surface of the sleeve 10 and the inner surface of the receiving cell 8, for pre-shielding the oncoming flows of the gas-liquid mixture and mixing them only at the entrance to the working wheel 6. The differential attachment 3 is equipped with a receiving channel 12 located at its base. All packages of steps 5 are located on the same shaft of the set-top box 3 and are hydraulically interconnected for the axial supply of gas-liquid mixture from the impellers of the lower stage package to the impellers of the upper stage plate. In this case, the performance of the impellers of each upper stage package is selected to be greater than the performance of the impellers of the lower stage package of the differential set-top box 3 according to the STROKE) of the movement of the gas-liquid mixture from the lower wall package to the upper stage package. The productivity of the module-section of the pump can be equal to, less or more than the performance of the impellers of the upper package of the differential set-top box 3 depending on: the conditions, the operating mode of the wells, and the characteristics of the pumped gas-liquid mixture. If the performance of the impellers of the upper package of the differential set-top box 3 is less than or equal to the performance of the impellers of the pump section 1, then the module section of the pump 1 is equipped with a receiving channel 14 for receiving the gas-liquid mixture from the well annulus.

In all sections of the differential attachment, in each wheel - 6-, in the drive disk, holes - 15 are made between the vanes, the diameter of which changes in size as the impellers increase in productivity, in sections from a larger value to a smaller one, from the lower section to top.

When the driving capacity of the impellers of the upper package of stages of the differential set-top box 3 is 20-50% higher than the capacity of the module section of pump 1, the pump may not have receiving channels for the gas-liquid mixture to flow directly from the annulus of the well.

Several stages of impellers and guides of greater productivity are built into the housing of the pump module-section, compared with the performance of the main working stages of the pump-module module.

The use of the estimated number of working stages of greater productivity, built into the body of the main module section of the pump, and the creation of additional pressure ensures the preservation of its performance as a result of a decrease in gas content at the reception of the main working stages of the module section of the pump.

If the productivity of the working stages of the upper section of the differential set-top box-3 is 20-50% less than the productivity of the impellers integrated in the housing of the module-pump section 1, then the receiving channel of the pump 14 is open and in several 2-3 working wheels of the module-section pump of greater productivity openings between the shoulder blades, which also act as a disperser.

Moreover, if the performance of the impellers of the upper section “DP 3 is greater than 20-50% of the productivity of the coordinated gear wheels of the main module of the pump section and the intake channel for the pump is closed, then drilling holes in several working steps of higher performance of the pump module of the section do not .

The sections of the differential dispersant attachment are selected in such a way that the ratio of the volume of the oil-gas mixture coming from the annular wellbore into each section, starting from the second., To the total productivity of the working stages of the corresponding section decreases in the direction to the pump intake channel.

Let us consider the operation of a pump using the example of an ETsNM-5A-250 pump equipped with a differential attachment 3 consisting of three stages packages (impellers and guide vanes). In each psshet, three stages of impellers and guides are mixed. The impellers of the upper package of steps of the attachment - i have a capacity of Qi -, the impellers of the 11th package of steps of the attachment have a productivity of Q2 - 125m day and the impellers of III - of its package of steps of the attachment have a capacity of QT - 50m: / day.

A hole with a diameter of 6 mm is drilled between the blades of each working wheel of the upper package of stages of the attachment 1. II - a package of working steps, holes, with a diameter of 5 glm, P1 of a package - working steps of an opening of 4 mm.

ETsNM-5A-250 descends to the desired depth in the well. The gas-liquid mixture arrives at the impeller receptions 6 of three packages of steps 5 of the differential attachment 3 through the receiving channels 12, the guide bushings 9 of the receiving cells 8. At the reception of the working skin of the lower P1 package of stages of the differential attachment, the gas-liquid mixture from the bottom hole of the squeegee flows into the volume of Oz. To receive the wheels of the 11th stage of the differential prefix of the gas-liquid mixture, the mixture arrives from the xxia of the 111th stage of the stages of the differential console in the Qs volume, as well as from the annulus of the well in the volume AQ2. 0; Qs + AQ2. A gas-liquid mixture from the impellers of the 11th package of steps of the differential set-top box in the volume Qj, and also from the annular space of the well in the volume AQi, Q {Q2, is received by the worker of the wheels of the 1st GO of the package of stages of the differential set-top box. The total productivity of the impellers of the 1st package of steps of the differential set-top box will be equal. Qi, Qj + AQi. The total productivity of the module-section of the pump will be determined due to the volume of the gas-liquid mixture from the wheels of the first package of stages of the diffuser box in the volume Qi, as well as due to its entry from the borehole space of the well through the intake channel of the pump 14 in the volume AQg, Onay - Qi В Having considered the in the yang, the pump has its own receiver. Thus, the performance of ETSNM-5A-250 will be He.QI + AQn.250m / day.

In this way, in working station 5, the penalties of each section “DP for all flows” of the GHS of the annulus of the well, as well as for the axial flows of fluid in each section of the GAP, the process of dispersing the GHS is carried out in stages, and this process of dispersing the GHS in the “DP of three sections of the working stages is performed three times for the GHS flow from the lower 3rd section, twice for the GHS flow of the middle middle 2nd section and once for the GHS flow from the upper 1st section “DP. If the productivity of the working stages of the upper, first section “DP is greater than the performance of the impellers built into the pump box before the main steps of the main module-section of the pump, then its receiving channel is 14 closed.

If the productivity of the working stages of the upper section “DP is less than the performance of the impellers built into the pump module module housing, then the pump receiving pump - 14- is open for the hydraulic wells from the annulus of the borehole and several holes with larger productivity of the module section are also provided with openings between the blades1, diameter 6 mm Thus, co-shex preparation, dispersion of the GHS are carried out, bringing it to a quasi-homogeneous state.

The use of a submersible non-suction electric pump with combined manual steps and a differential attachment with a disperser increases the overhaul period of wells, which have mechanical impurities, foamy oil, oil-water emulsion, and gas-liquid mixture. It is advisable to use it with a gas separator and without it. The efficiency of high-performance pumps is improved when pumping GHS from wells with a flow rate of more than 200-ZOOmZ / szt.

As a result of a reduction in the number of underground repairs, downtime of wells, an increase in the pumping coefficient, the production of oil and gas increases and their cost decreases.

Claims (2)

1. Submersible rodless electric pump with a differential attachment-disperser, comprising a module-section of the pump, an engine with hydraulic protection and a differential attachment connected to the pump on the one hand and to the hydraulic protection of the engine - on the other hand and made in the form of several sections of working steps integrated into the attachment case different capacities installed one above the other, each of which has a receiving channel for entering the gas-liquid mixture section from the annulus of the well, which are hydraulically they are interconnected to supply a gas-liquid mixture from the impellers of the lower section to the impellers of the upper section, characterized in that in all sections of the differential attachment in the drive disk of each impeller there are holes for dispersing the oil-gas mixture. 2. The device of claim 1, characterized in that the diameters of the holes in the impellers of the differential attachments are made decreasing from the lower section to the upper.