RU109512U1 - THIN FILTERING SUBMERSIBLE CENTRIFUGAL PUMP INPUT MODULE - Google Patents

Abstract

 1. The input module of fine filtration, designed for installation at the inlet of submersible centrifugal electric pumps for oil production and containing a housing with holes for the passage of formation fluid, a base and a head attached to the housing, a shaft transmitting rotation from the electric motor to the pump, a multi-section slotted wire frame a filter mounted on the housing, a dispersing device in the form of a screw, built into the housing of the input module, characterized in that it is equipped with a safety valve with a spring actuator, Open on clogged filter elements, and the hub of the screw dispersant is elongated and serves simultaneously as shaft protection sleeve. ! 2. The input module of the centrifugal pump according to claim 1, characterized in that the screw rotates in a smooth without ribs housing of a dispersant made of wear-resistant steel, which simultaneously serves as a spacer pipe between the upper support bearings of the shaft.

Description

1. The technical field

A utility model - the input module of fine filtration (VMFT) of a submersible centrifugal pump - relates to oil engineering and can be used in submersible pumps to extract oil from oil wells, serves to clean the formation fluid at the inlet of a submersible centrifugal pump from mechanical impurities and dispersion contained in liquid gas bubbles transmitting torque from the shaft of a submersible motor to the shaft of a centrifugal pump.

2. The level of technology

Known input modules of the type MB, ZhNSh, MVTF, used in the installation of electric centrifugal pumps.

Input modules of type MV5, MV5A, MV6 (Borets, Novomet, Alnas plants) do not provide the necessary filtering fineness, do not have a dispersion unit and a safety valve.

1. Known RU 97778 U1 - INPUT MODULE OF SUBMERSIBLE CENTRIFUGAL PUMP

The input module of a submersible centrifugal pump contains a housing with holes for the passage of formation fluid, a base and a head attached to the housing, a shaft with intermediate bearings, a self-cleaning multi-section filter mounted on the housing, a dispersing device, and a dispersing device made in the form of a screw rotating in the housing with longitudinal ribs .

Input modules of type MVTF LLC TekhnO-Oil application 2010115480/06 dated 04/19/2010 RU 97778 U1 LLC have a high filtration fineness, have a dispersion unit with an additional attachment to the main body, do not have a safety valve in case of clogging, have less limited throughput the design of spacer tubes and bearings.

2. Known RU 2395014 C1 - BLOCK FILTER FOR SUBMERSIBLE CENTRIFUGAL ELECTRIC PUMP

The block filter contains a base, a head and a filter unit installed between them, characterized in that the filter unit consists of one or more filter sections with the possibility of replacing them.

Cases of individual blocks are connected using fasteners, and shafts using splined couplings. The filter element can be made of wire, spring, screen, etc. The filter capacity is the greater the greater the number of units mounted in it (for FBI-5 - up to 160 cubic meters per day)

This design of the filter (inlet module) of the submersible centrifugal pump does not have a safety valve in case of clogging, it has less throughput limited by a large number of heads, bases, nipples of individual blocks, it has a more complex and heavy structure, a large mass of parts (splined couplings) rotating with the shaft .

The closest analogue is the ENTRANCE MODULE of the SUBMERSIBLE CENTRIFUGAL PUMP RU 97778 U1. However, it has the following disadvantages:

- increased wear of the bearing bushes and shafts due to the influence of the flow of formation fluid;

- increased vibration of the shaft due to the lack of spacers between the housings of the intermediate bearings;

- the possibility of disruption of the fluid supply to the pump inlet, overheating and failure of the pump when the filter elements are clogged;

The utility model of the fine filtering input module claimed for registration will allow:

- reduce wear on the bearing bushings and shaft;

- ensure uninterrupted and trouble-free operation of the input module when the filter elements are clogged;

- increase the throughput of the input module.

To achieve this technical result, the design of the input module has the following features:

- To protect the shaft, the shaft bushings and the bearing from the effects of the flow of formation fluid, protective spacer tubes of corrosion-resistant steel are installed between the shaft support bearings. Spacer tubes increase the spatial rigidity of the input module and reduce the level of vibration of the shaft;

- a spring-loaded safety poppet valve is integrated in the lower bearing housing. When the filter elements are clogged, a vacuum is created in the cavity of the inlet module, which leads to the opening of the valve and the passage of formation fluid through the channels in the base of the module directly into the cavity of the module and then to the pump inlet. The bore sections of the base and valve channels are calculated. This ensures uninterrupted and trouble-free operation of the module when clogged filter elements of the input module;

- to reduce the resistance to the flow of the reservoir fluid, the expansion tubes are made of pipes half the diameter of the input module body and are outside the flow path of the reservoir fluid, the perforation area of the pipes, the bore of the bearing channels and the head are enlarged and are calculated, the holes in the bearing housings are made oval forms, at the upper end of the input module shaft, a high-performance disperser screw is installed providing additional liquid support at the inlet to SOS. The dispersing device is integrated into the input module housing and is protected by a smooth tube housing made of wear-resistant steel. All these technical solutions allow you to increase the throughput of the input module.

The input module for fine filtration of a submersible centrifugal pump that we offer has a built-in dispersing device made in the form of a high-performance screw rotating in a smooth without ribs housing of a disperser made of wear-resistant steel, which at the same time serves as a spacer pipe between the upper supporting bearings of the shaft. The hub of the auger of the dispersant is made elongated and serves simultaneously as a protective sleeve of the shaft. To increase the throughput of the input module, the casing is made with a larger perforation, and the spacer tubes of the smallest possible diametrical size, and the flow channels of the bearings, heads, and bases are oval-shaped with a large cross section and minimal resistance to the passage of fluid flow. For trouble-free operation of the pump installation, the module design has a safety valve that provides reservoir fluid to the pump inlet when filter elements are clogged, the valve is located in the lower zone above the module base

The design of the input module was developed taking into account many years of experience in operating input modules of the MB, MVTF, ZhNSh types as part of the ESP of Russian oil-producing enterprises. Serial production of new input modules was organized at the production sites of the patent holder of KAMAPRO LLC, Naberezhnye Chelny. Deliveries are made to several enterprises in Russia and Kazakhstan. Complaints about the quality of the input modules have been reported.

3. Disclosure of utility model

The proposed design of the input module of fine filtration (VMFT) of a submersible centrifugal pump is installed at the inlet of a submersible centrifugal electric pump for oil production, contains a housing with holes for the passage of formation fluid, a base and a head attached to the housing, a shaft transmitting rotation from the electric motor to the pump with intermediate bearings with carbide inserts and spacer perforated pipes, self-cleaning multi-section slotted wire-frame filter fixed to housing, a dispersing device with a housing made of corrosion-resistant steel and a screw mounted on a shaft in the upper part of the module, a safety valve that provides reservoir fluid to the pump inlet when the filter elements are clogged, located in the lower zone of the module.

To increase the throughput of the input module, the housing and spacer tubes are made with a larger perforation, and the flow channels of bearings, heads, and bases are made with a large cross section.

The fine filter can be used repeatedly after regeneration (cleaning of filter elements, restoration of breakthroughs, delaminations). Partial self-cleaning of the surface of the filtering elements occurs during operation (due to the special wire profile, sharp edges of the receiving channels and the polished surface of all surfaces in contact with the reservoir fluid passing through the filter).

The dispersion unit included in the design of each section allows you to convert the reservoir fluid containing free gas into a homogeneous, ground gas-liquid mixture, before being fed to the pump. This design prevents cavitation of the pump and the formation of gas plugs, contributes to the stable operation of the pump without interruption of supply.

The input module of fine filtration and the device for dispersing a gas-liquid mixture are a monoblock design. The dispersion device consists of a screw installed inside the input module on the shaft, and a dispersant housing made of wear-resistant steel. The dispersant housing serves simultaneously as a spacer pipe between the upper pair of bearings.

The poppet type safety valve is designed to protect the pump with a feed stall and from emergency operation - “dry” when the filter elements of the input module of the unit are clogged. The valve is designed in such a way that when the filters become clogged above the permissible level and the pressure differential between the borehole annular pressure and the pressure inside the inlet module increases as a result, the formation fluid supply channels open bypassing the filter elements through the holes in the base of the inlet module. A safety valve is integrated into the lower bearing housing, which has openings for the passage of formation fluid into the inlet module. The valve disc is pressed against the end of the bearing housing by two springs through rods with adjusting nuts, and blocks the flow openings at normal filter capacity of the input module. The opening force of the valve is determined by the maximum permissible degree of clogging of the filter elements, and therefore the amount of vacuum in the cavity of the inlet module when the pump unit is running, and is set by changing the amount of pre-compression of the springs during rotation of the adjusting nuts. In this way, the valve can be set to a differential pressure and an appropriate degree of filter clogging of 90 to 50%. Valve adjustment is carried out during module assembly in the conditions of the manufacturer or repair enterprise during module repair.

The input modules are used with pumps without axial shaft support and with hydraulic shields that absorb axial loads from the pump. The input module can consist of one lower section and, to increase throughput, two sections: the lower and upper sections, the sections are connected to each other by bolts, and the shafts are by means of splined couplings. Operation of the input module is possible as part of installations of any manufacturers, due to the universal design.

4. A brief description of the drawings.

The input module consists of a pipe casing of claim 1 with holes along the entire length for the passage of formation fluid, the head of claim 3, the base of claim 2, the shaft of claim 4 with the radial bearings of claim 5 located on it with carbide bushings. In the housing, the bearings are pulled together by spacer tubes n 6. Spacer tubes also have openings along the entire length for the passage of formation fluid. Connection shaft input module

the tread shaft and the shaft of the pump section are produced by the spline couplers of item 12 included in the delivery. Slit filter elements of the wire-frame type of Claim 7 are installed on the tube body. The input module of fine filtration and the device for dispersing a gas-liquid mixture are a monoblock design. The dispersion device consists of the screw of claim 8, installed inside the input module on the shaft, and the housing of the dispersant of claim 9, made of wear-resistant steel. The dispersant housing serves simultaneously as a spacer pipe between the upper pair of bearings.

The safety valve of clause 10 of the poppet type is designed to protect the pump with a feed cut-off and from operating in emergency mode - “dry” when the filter elements of the input module of the installation become clogged. The valve is designed in such a way that when the filters become clogged above the permissible level and the pressure differential between the borehole annular pressure and the pressure inside the inlet module increases as a result, the formation fluid supply channels open bypassing the filter elements through the holes in the base of the inlet module. The valve is adjusted to the working opening pressure by the nuts of item 11.

The main details of the input module, see figure 1

1 - pipe body with holes along the entire length for the passage of formation fluid;

2 - base;

3 - head;

4 - a shaft with a key and slotted grooves at the ends;

5 - radial bearings with bushings made of hard alloy;

7 - slotted filter elements frame-wire type;

6 - spacer perforated pipes;

8 - a screw installed inside the input module on the shaft;

9 - dispersant housing made of corrosion-resistant wear-resistant steel;

10 - poppet type safety valve;

11 - valve adjusting nuts;

12 - splined couplings.

5. Implementation of a utility model

The input module is used as part of submersible electric pump installations for oil production. Input modules are mounted on the inlet flange of the pump, gas separator or pump disperser. The input modules transmit torque from the motor shaft to the pump shaft, clean and supply formation fluid to the inlet of the submersible pump.

When the submersible pump is turned on, the formation fluid that is sucked in by the pump rotor passes through the slotted filters of claim 7 and through the holes in the housing of claim 1 into the internal cavity of the input module. Mechanical particles suspended in the reservoir fluid larger than the size of the slit of the filter element of claim 7 are separated and deposited in the cavity of the column. Together with the liquid, gas bubbles enter the module cavity. A mixture of liquid, small mechanical particles, gas bubbles are mixed on the blades of the high-performance screw of item 8 and under pressure through the opening of the head of item 3 is fed to the pump inlet.

If the filter elements become clogged and the vacuum in the module cavity increases, the safety valve of item 10 automatically opens and formation fluid flows through the channels at the base of the module of channel 2 through the module cavity directly to the pump intake, providing protection of the pump from a liquid supply interruption.

The shaft, shaft bushings of claim 4 and the bearing of claim 5 are protected from the direct effects of the pumped formation fluid by the spacer tubes of claim 6. The bearing bushings are lubricated and cooled by the fluid entering through the drainage holes in the spacer tubes of claim 6.

The input module shaft of item 4 is used to transmit torque from the motor shaft to the pump shaft, has a key for fixing the shaft bushings, screw of item 8, and splined ends for fastening the couplers of item 12.

Claims (2)

1. The input module of fine filtration, designed for installation at the inlet of submersible centrifugal electric pumps for oil production and containing a housing with holes for the passage of formation fluid, a base and a head attached to the housing, a shaft transmitting rotation from the electric motor to the pump, a multi-section slotted wire frame a filter mounted on the housing, a dispersing device in the form of a screw, built into the housing of the input module, characterized in that it is equipped with a safety valve with a spring actuator, Open on clogged filter elements, and the hub of the screw dispersant is elongated and serves simultaneously as shaft protection sleeve. 2. The input module of the centrifugal pump according to claim 1, characterized in that the screw rotates in a smooth without ribs housing of a dispersant made of wear-resistant steel, which simultaneously serves as a spacer pipe between the upper support bearings of the shaft.