RU58631U1 - SUBMERSIBLE BARRELESS ELECTRIC PUMP WITH A DIFFERENTIAL ADDITIVE-DISPERSANTER - Google Patents

Abstract

The inventive utility model relates to the field of well operation by submersible rodless electric pumps. The essence of the utility model: a submersible rodless electric pump with a differential attachment - disperser, contains a module - section of the pump 1, a motor with hydraulic protection 2 and a differential attachment - disperser 3, connected to the pump 1 on the one hand and to the hydraulic protection of the engine 2 on the other hand, made in the form several sections 5, 6, 7 of working stages 8, 9, 10 of different capacities built into the housing 4 of the prefix 3, installed one above the other, each of which has a receiving channel 11, 12, 13 for entering the gas-liquid section mixtures from the annulus of the well, which are hydraulically interconnected to supply a gas-liquid mixture from the impellers 8 of the lower section 5 to the impellers 10 of the upper section 7 and containing the impellers in the upper section 7 - dispersants 14, The new thing is that the differential attachment - dispersant 3 is equipped with an acoustic transducer 15, consisting of a stator 16 and a rotor 17, installed after the impellers - dispersants 14 of the upper section 7. 1 zp f-ly, 1 ill.

Description

The inventive utility model relates to the field of well operation with submersible rodless electric pumps

Known submersible rodless electric pump with a differential attachment - dispersant, containing a module - pump section, consisting of several sections of the working stages, a hydraulic motor and differential attachment - dispersant attached to the pump on the one hand and to the hydraulic protection of the engine - on the other hand, made in the form of built-in in the console case of several sections of working stages of different capacities installed one above the other, each of which has a receiving channel for entering the gas section fluid mixture from the annulus of the well and equipped with, located below the working stages, sequentially, on one shaft, with a screw, impeller-disperser, impeller, hydraulically interconnected (RF certificate for utility model No. 43602, MPK7 F 04 D 13/10 dated September 21, 2004).

The disadvantage of this solution is the possibility of deposition of salts and solids on the working bodies of a submersible rodless electric pump, leading to premature failure of the pump.

Known submersible multistage centrifugal pump containing a set of stages consisting of impellers and guiding devices assembled on the shaft at the key, and the hubs of the stationary guide apparatus are sliding bearings of the rotor. Protective sleeves are installed on the shaft, which are included in the trunnions of the guide vanes (ISEPSHTEIN M.D. Centrifugal pumps for oil

industry. Moscow, GOSTOPTEHIZDAT, 1957, p. 266, Fig. 174, pump type Reda). If there are abrasive particles in the pumped liquid, the protective sleeves and holes in the guiding devices of the known pump wear out intensively, which leads the pump to an emergency state.

The closest set of essential features to the claimed utility model is a submersible rodless electric pump with a differential attachment - dispersant, containing a module section of the pump, a motor with hydraulic protection, a differential attachment - disperser attached to the pump on one side and to the hydraulic protection of the engine on the other side and made in the form of several sections of working steps of different capacities built into the console of the console installed one above the other, each of which has receiving a channel for entering the gas-liquid mixture section from the annulus of the well, which are hydraulically interconnected to supply the gas-liquid mixture from the impellers of the lower section to the impellers of the upper section (RF patent for utility model No. 31618, IPC 7 F 04 D 13/10 of 02.12 .2003).

The disadvantage of this device is that the pump quickly comes into emergency condition, due to clogging of parts with salts and mechanical impurities.

The objective of which the present utility model is aimed is to create a reliable device that provides a high degree of protection for the working bodies of a submersible rodless electric pump with a differential attachment - dispersant from deposits of salts and solids, reducing operating costs, increasing oil production by creating elastic flow oscillations oil and gas mixture (VNGS) acoustic stage.

This problem is achieved by the fact that in the proposed submersible rodless electric pump with a differential attachment, a dispersant containing a module — a pump section, an engine with hydraulic protection and a differential attachment — a disperser connected to the pump on the one hand and to the hydraulic protection of the engine on the other hand, made as built-in the prefix case of several sections of working steps of different capacities installed one above the other, each of which has a receiving channel for entering the gas-liquid section solid mixture from the annulus of the well, which are hydraulically interconnected for supplying a gas-liquid mixture from the impellers of the lower section to the impellers of the upper section and containing the impellers in the upper section - dispersants, in contrast to the prototype, the differential attachment - disperser is equipped with an acoustic transducer consisting of a stator and a rotor installed after the impellers of the dispersers of the upper section.

The supply of the differential attachment - disperser with an acoustic transducer consisting of a stator and rotor, installed after the impellers - dispersers of the upper section, provides wave processing of the entire volume of the oil and gas mixture and the creation of elastic vibrations preventing the deposition of salts and mechanical impurities on the working bodies of the submersible rodless electric pump.

Figure 1 presents a submersible rodless electric pump with a differential attachment - dispersant.

The submersible rodless electric pump with a differential attachment - disperser contains a module section of the pump 1, a motor with hydraulic protection 2, a differential attachment - disperser 3, which contains attachments 3 integrated into the housing 4, several sections 5, 6, 7 of the working stages 8, 9, 10, each of which is equipped with a receiving channel 11, 12, 13, which are hydraulically interconnected for

supplying the VNGS from the impellers 8 of the lower section 5 to the impellers 10 of the upper section 7 and containing in the upper section 7 the impellers are dispersers 14 and an acoustic transducer 15 consisting of a stator 16 and a rotor 17.

Works submersible rodless electric pump with differential attachment - dispersant as follows.

VNGS from the annular space of the well enters through the receiving channels 11, 12, 13 to receive the working stages 8, 9, 10 in sections 5, 6, 7 of the differential attachment - dispersant. From the lower section 5, the VNGS arrives at the reception of the working stages 9 of section 6 simultaneously with the flow passing through the receiving channel 12. Next, the VNGS from section 6 enters the section 7, supplemented by the volume of liquid entering through the receiving channel 13. The total flow enters the reception of the impellers 10, of the impellers — dispersants 14 and then is pumped into an acoustic transducer 15, where a periodic pressure change is created by means of a stator 16 and a rotor 17, which leads to the appearance of elastic vibrations contributing to the finely dispersed aggregation particulate impurities (coagulation) contained in the liquid stream. The VGNS processed in the differential set-top box - disperser is completely sent to the module-section of pump 1 to receive the first working stages, the productivity of which is less than the performance of sections 5, 6, 7 of the differential set-top box - disperser with an acoustic transducer 15.

Thus, this design provides reliable and long-term operation of a submersible rodless electric pump.

Claims (1)

A submersible rodless electric pump with a differential attachment-disperser containing a module section of the pump, a hydraulic protection motor and a differential attachment-disperser attached to the pump on the one hand and to the hydraulic protection of the engine on the other hand, made in the form of several sections of different working stages built into the console of the attachment performance, 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 hydraulically interconnected for supplying a gas-liquid mixture from the impellers of the lower section to the impellers of the upper section and containing impellers-dispersants in the upper section, characterized in that the differential attachment-disperser is equipped with an acoustic transducer consisting of a stator and a rotor installed after dispersing impellers of the upper section.