RU118348U1 - DEVICE FOR MAGNETIZATION OF OIL-BASED FLUID - Google Patents

Abstract

 A device for magnetizing oil well fluid, including a sealed housing of non-ferromagnetic material with a system of permanent magnets, which is two pipes interconnected by flanges of different diameters to form an annulus that is filled with transformer oil, characterized in that the permanent magnet system is made in the form of a set of coated chrome-nickel magnetic rings installed in such a way that the sides of the poles of the same name are in direct contact act with each other, and the system of permanent magnets is limited by a support washer and a tightening nut, and pipes of various diameters forming a housing are interconnected by flanges fixed by a threaded connection at the ends of a pipe of a smaller diameter and connected by argon welding to the ends of a pipe of a larger diameter .

Description

The proposed utility model relates to apparatus for magnetic treatment of water and can be used to prevent the formation of deposits (for example, resin-paraffin) on downhole equipment during oil production, in particular, to prevent the deposition of salts on working bodies and bodies of submersible centrifugal pumps.

A device for magnetic water treatment according to Auth. No. 1813730. It contains a cylindrical housing with inlet and outlet nozzles, a central shaft, ring magnets and non-magnetic spacers installed in the housing. Part of the ring magnets in it is rigidly mounted on the shaft at equal axial distances from the spacers, oriented to the same poles and provided with spiral blades mounted on both sides of the magnets, and the other part of the ring magnets mounted on non-magnetic spacers on both sides and oriented by the same poles to adjacent ring magnets mounted on the shaft, while the device is equipped with additional ring magnets mounted on the inner wall of the housing at the level of the ring magnets, akreplennyh shaft.

However, the known designs have low reliability and are unacceptable for the magnetization of oil well fluids.

This disadvantage is due to the fact that they do not withstand the downhole fluid pressure and have a complex structure and high metal consumption.

A device for the magnetization of oil well fluids (See PM No. 49892, IPC E21B 41/00, publ. 1012.2005), preventing the formation of deposits on the elements of submersible centrifugal pumps, containing a system of permanent magnets and made of a body with tail parts made of a sealed corrosion-resistant pipe , of non-ferromagnetic material, the lines of force of the magnetic system are closed through the working gap and the casing of the borehole pipes, and the tail parts of the body are provided with internal and external threads.

A disadvantage of the known device for the magnetization of oil well fluids is its low reliability.

This disadvantage is due to the fact that the body of the known device for magnetizing oil well fluids is short-lived, since it does not withstand bottom-hole fluid pressure, because the body is hollow inside hermetically sealed, as a result of which it is subject to deformations from the downhole fluid pressure, essentially, it is crushed by the pressure of the downhole fluid.

Of the known closest to the claimed object is the prototype device for the magnetization of oil wells (see RF patent for utility model No. 62426, IPC ЕВВ 43/00, publ. 10.04.2007), including a sealed housing made of ferromagnetic material with a system of permanent magnets , which is made in the form of two interconnected pipes of different diameters with the formation of the annular space, which is filled with transformer oil, and the permanent magnet system is made in the form of annular magnetic bushings, while pipes of different diameters that make up the casing are hermetically connected to each other by means of flanges, the casing is made of stainless steel, the inner casing pipe being made of stainless steel, and the outer casing pipe made of carbon steel and can be a tubing.

A disadvantage of the known device is the low reliability and efficiency.

This disadvantage is due to the fact that the connection between each other through the flanges of pipes of different diameters that make up the body is carried out by conventional welding, which leads to a rapid violation of the tightness. In addition, the implementation of carbon steel flanges leads to its magnetization, which prevents the flushing of magnetic fields.

The technical result provided by the utility model is to increase the reliability and efficiency of the device to reduce costs by increasing the overhaul period.

The specified technical result is achieved by the fact that in the known device for the magnetization of oil well fluid comprising a sealed housing made of a system of permanent magnets, which is two pipes connected to each other by flanges of different diameters with the formation of the annular space, which is filled with transformer oil, according to the invention, the system permanent magnets made in the form of a set of chromonickel coated magnetic rings, mounted in such a way that one side of the alternating poles are in direct contact with each other, the permanent magnet system being limited by a support washer and a tightening nut, and pipes of different diameters forming the body are interconnected by flanges fastened by a threaded connection to the ends of the pipe of a smaller diameter and connected by argon welding with pipe ends, larger diameter.

Between the distinguishing features and the achieved technical result, there is the following causal relationship.

In contrast to the known designs, the proposed utility model “Device for magnetizing an oil well fluid”, the principle of operation of which is based on the interaction of a directional system of magnetic fields with a well fluid passing in the working gap between the sealed housing of the device for magnetizing oil well and the walls of the production string, allows for high reliability due to the creation of a sealed tubular body made of two pipes of different diameters due to filling the annulus of this sealed casing with transformer oil, the back pressure of the walls of this sealed casing by a highly mobile oil well with its high pressure. The magnetic field generated by a closed magnetic system formed by a set of chrome-nickel-coated magnetic rings and a housing in a radial axial clearance is directed perpendicularly to the direction of fluid flow, while the chrome-nickel-plated magnetic rings protect the latter from the effects of hydrocarbons, which increases the reliability and durability of the claimed device. It should be noted that the magnetic field is created by a system of permanent magnets in the form of a set of magnetic rings coated with chrome nickel, which are installed in pairs, i.e. so that the sides of the poles of the same name are in direct contact with each other, and this significantly increases the magnetic field voltage, and thus significantly increases the efficiency of the device, which helps prevent scaling on the working bodies of submersible pumps, as well as reduce paraffin deposits on the walls tubing, increase the reliability of tubing and submersible centrifugal pumps and thereby increase the overhaul period of pumping equipment and reduce l the cost of oil production. The limitation of the system of permanent magnets by a support washer and a tightening nut ensures the reliability of the entire device as a whole and, in particular, the reliability providing high efficiency of the system of permanent magnets, in which the magnetic rings tend to push off from each other, because the sides of the poles of the same name are in direct contact with each other. Thus, in the aggregate of features, all this allows to increase the reliability of the claimed device and its effectiveness, reduce the cost of the device due to its simplicity, reliability and by increasing the overhaul period. Considering the change in the volume of the annular cavity formed by magnetic rings that are installed in such a way that the sides of the poles of the same name are in direct contact with each other, the movement of fluid in the treatment zone increases significantly, resulting in a more effective, taking into account the molecular level of interaction in the highly mineralized formation fluid, intensive destruction of crystallization centers into smaller structures (the phenomenon of dispersion), and also reduces the surface tension coefficient, friction and viscosity, as a result of which the fluid mobility and its pressure significantly increase, which, in turn, will reduce the deposition of salts and paraffins on pumping equipment, in particular on submersible pumps, significantly increasing their service life. Thus, the “Magnetization of oil well fluid” allows not only to prevent scaling on the working bodies of submersible pumps, but also to reduce paraffin deposits on the walls of tubing, increase the reliability of tubing and submersible pumps, which also allows you to further increase the overhaul period of pumping equipment and reduce the cost of oil production. The interconnection of pipes of different diameters forming the body with the help of flanges fixed by means of a threaded connection at the ends of the pipe of a smaller diameter and connected by means of argon welding with the ends of the pipe of a larger diameter increases the reliability and durability of the device, and also increases the efficiency of the device, since with argon welding does not magnetize steel joints, thus eliminating the flushing of magnetic fields.

An analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed utility model “Magnetization of oil well fluids”, made it possible to establish that the applicant did not find a source characterized by features that are identical to all essential features the claimed technical solution. According to the information available to the applicant, the set of essential features of the claimed utility model is not known from the prior art, which allows us to conclude that the utility model meets the criterion of "novelty." The determination from the list of identified analogues of the prototype as the closest analogue in terms of the totality of features made it possible to identify the set of distinguishing features that are essential to the applicant’s technical result in the inventive magnetization device for oil well fluids ”set forth in the utility model formula. Therefore, the claimed utility model “Magnetization device for oil wells” meets the criterion of “novelty”.

To verify the compliance of the claimed utility model “Magnetization device for oil well fluid” with the criterion of “inventive step”, the applicant conducted an additional search for known solutions to identify a set of features that match the distinctive features of the claimed magnetization device for oil well fluid. The search results showed that the claimed magnetization device for oil wells "does not follow explicitly from the prior art, since the influence of the transformations provided for by the essential features of the claimed utility model to achieve a technical result is not revealed from the prior art. Therefore, the claimed utility model “Magnetization device for oil wells” meets the criterion of “inventive step”.

Thus, the above information indicates that when using the claimed device magnetization of oil well fluid set of conditions in the form as described in the formula of the utility model, i.e. the possibility of its implementation using the example of a specific implementation described in the application is confirmed. Structural elements embodying the claimed “Magnetization of oil well fluid” during its implementation are able to achieve the achievement of the technical result perceived by the applicant, namely, to increase the reliability and operation of the device to reduce costs by increasing the overhaul period and structural stability, which meets the criterion of “industrial applicability".

The set of essential features characterizing the essence of the utility model “Magnetization device for oil wells” can be repeatedly used in a technologically time-consuming process of oil production to obtain a technical result, which consists in increasing the reliability and efficiency of the device to reduce costs by increasing the overhaul period, which allows cost-effective and reliably use the inventive “Device magnetization of oil well fluid”, which allows to conclude that it meets the criterion of "industrial applicability".

The essence of the claimed utility model "Device magnetization of oil well fluid" is illustrated by an example of a specific implementation, and by drawings, where figure 1 shows a device for magnetization of oil well fluid.

- figure 2 - schematically shows the body of the device for the magnetization of oil well fluid in the well;

Structurally, the device for magnetizing the oil well fluid is a sealed housing 1 made of non-ferromagnetic material, in particular stainless steel, inside of which a magnetic system 2 is mounted, arranged in a certain way in terms of location, shape and quantity, including Nd-based high-efficiency permanent magnets 3 Fe-B, which are made in the form of magnetic rings coated with chrome-nickel 4. The housing 1 is made in the form of two interconnected using sealing flanges 5 and 6, pipes 7 and 8 r zlichnogo diameter. Both flanges 5 and 6 are fixed by means of a threaded connection 9 at the ends 10 and 11 of the pipe 7 of smaller diameter and are connected by argon welding 12 with the ends 13 and 14 of the pipe 8 of a larger diameter. Between the pipes 7 and 8 of different diameters, the space 15 is filled with transformer oil 16, which provides counter-pressure of the walls 17 of the sealed housing 1 with a highly mobile oil well 18 with its high pressure, which increases the reliability and durability of the device. The sealed housing 1, made of non-ferromagnetic material, is installed in the production casing 19 of the well, with the formation of a working gap 20 between the outer surface 21 of the outer pipe 8 of the sealed housing 1 of the device for magnetizing oil well and the inner walls 22 of the production string 19. An oil well passes through the working gap 20 fluid 18. The device for the magnetization of oil well fluid is fixed directly to the submersible pump 23 or to the suspension of the tubing (on also not shown). The above-mentioned permanent magnets 3 based on Nd-Fe-B, which are made in the form of chrome-nickel-coated magnetic rings 4, are mounted so that the sides 24 and 25 of the same poles are in direct contact with each other. The system of permanent magnets 3 is limited by a support washer 26 and a tightening nut 27.

The device for the magnetization of oil well fluid can be used in the operation of any pump for oil production, for example, type ESP, USHGN. The principle of operation of the device for magnetizing the oil well fluid is based on the interaction of the directional system of the magnetic system 2 (magnetic fields) with the oil well 18 passing in the working gap 20 between the sealed housing 1 of the device for the magnetization of oil well fluid and the walls 22 of the production string 19. Power lines of the magnetic system 2 close through the working gap 20 of the passage of the oil well 18, both in the inner pipe 7 of a smaller diameter, and in the working gap 20 between the sealed housing ohm 1 of the device for the magnetization of oil wells and production casing 19. As a result of the interaction at the molecular level of the interaction in the highly mineralized reservoir oil wells 18 there is an intensive destruction of the crystallization centers into smaller structures (dispersion), as well as a decrease in the coefficient of surface tension, friction and viscosity, as a result, the mobility of the reservoir oil well 18 significantly increases and salt deposition on the pumping equipment is prevented vania.

The claimed utility model “Magnetization device for oil wells” provides high reliability and efficiency of the device, which helps prevent scaling on the working bodies of submersible pumps, as well as reduce paraffin deposits on the walls of tubing, increase the reliability of tubing and submersible centrifugal pumps and to increase the overhaul period of pumping equipment and reduce the cost of oil production.

Claims (1)

A device for magnetizing oil well fluid, including a sealed housing of non-ferromagnetic material with a system of permanent magnets, which is two pipes interconnected by flanges of different diameters to form an annulus that is filled with transformer oil, characterized in that the system of permanent magnets is made in the form of a set of coated chrome-nickel magnetic rings installed in such a way that the sides of the poles of the same name are in direct contact act with each other, and the system of permanent magnets is limited by a support washer and a tightening nut, and pipes of different diameters forming a housing are interconnected using flanges fixed by a threaded connection at the ends of a pipe of a smaller diameter and connected by argon welding to the ends of a pipe of a larger diameter .