RU68497U1 - DEVICE FOR MAGNETIC TREATMENT OF A FLOW OF ORGANIC OR INORGANIC LIQUID OR GAS - Google Patents

Abstract

The invention relates to magnetic processing of liquids and can be used for non-contact magnetic processing of any flows of moving liquids and gases, both organic and inorganic origin, regardless of their salt content and the amount of suspended particles, to prevent deposits, and can also be used in the automotive industry, heat power engineering, water supply and sewerage, mineral processing, etc. for preliminary preparation of feed water, motor fuel of all kinds, reagent solutions; mixtures and pulps used in technological processes. The technical result of the proposed utility model is to expand the range of use of the device for pipes with different diameters and materials, reduce the corrosion activity of a liquid or gas flow, prevent the formation of deposits on the walls of pipelines and equipment with the erosion of existing deposits, including on heat transfer surfaces, and also reducing the surface tension of liquids (soft water effect). The achievement of this result is ensured by the fact that the device for magnetic processing of the flow of organic or inorganic liquid or gas contains a module consisting of two identical magnetic systems located diametrically opposite on the outer surface of the pipe with the flow of liquid or gas. The magnetic system contains permanent magnets, whose poles of the same name are directed to the pipe axis, and it is made in the form of a patch plate oriented along the length parallel to the fluid flow and having a vertical section in the form of a sector profile. The sector profile is divided into three parts: the central part has a radially oriented magnetization zone, and two longitudinally oriented zones are located at its edges, while the sector profile mating surface with the pipe is made with a radius of curvature equal to 10-50 of the radius of the pipe. The number of modules of magnetic systems is in the ratio to the diameter of the pipe as 1:50, in turn, the ratio of the length, width and height of the plate of the magnetic system is 8: 4: 1. The casing of each plate of the magnetic system is made of non-magnetic material, the side parts of the casing below have flanges, the holes of which are fastened in the form of a pair of ribs parallel to each other, located in the radial clearance between the plates of the magnetic systems. In the upper part of the plate of the magnetic system between the housing and the permanent magnets there is a magnetic core made of soft magnetic steel, the thickness of which refers to the thickness of the plate of the magnetic system as 2: 5.

Description

The invention relates to magnetic processing of liquids and can be used for non-contact magnetic processing of any flows of moving liquids and gases, both organic and inorganic origin, regardless of their salt content and the amount of suspended particles, to prevent deposits, and can also be used in the automotive industry, heat power engineering, water supply and sewerage, mineral processing, etc. for preliminary preparation of feed water, motor fuel of all kinds, reagent solutions, mixtures and pulps used in technological processes.

It is known “Device for magnetic processing of liquids”, containing a ferromagnetic pipe and permanent ring magnets mounted on its outer surface, enclosed in a hermetically sealed ferromagnetic screen and installed so that their main surfaces with the same poles face the pipe axis. At the same time, ferromagnetic rings are additionally installed without a gap on the ferromagnetic pipe at least at two ring magnets from one end. The distance between the ends of at least two of these rings is made in the range from zero to ten times the width of the ring magnet, with the outer poles of at least two ring magnets being shunted along the longitudinal axis of the ferromagnetic pipe without a gap to the poles by ferromagnetic plates, and the main surfaces of at least two adjacent shunted ring magnets, facing the axis of the ferromagnetic pipe, are made with the same poles.

Patent for PM No. 39133 MKI (7): C 02 F 1/48 publication date 2004.07.20

It is known "Magnetic device for processing liquid", comprising a housing, inside of which, in series with a longitudinal gap, are placed in pairs with an angular displacement of one pair with respect to another, permanent magnets with a radial clearance and a magnetic circuit. In this case, the magnetic circuit is made uniform for two pairs of magnets in the form of a ring with protrusions made diametrically at both its ends. Permanent magnets with opposite poles are installed in pairs on the inner surface of the protrusions of the magnetic circuit. Each pair of magnets is mounted one relative to the other with an offset of 90-270 °, and the outer surface of the magnets facing the magnetic circuit is mated in shape to the inner surface of the protrusion. Transverse cuts are made on the outer and / or inner surface of the magnetic circuit within the boundaries of the permanent magnets, and the longitudinal gap between the adjacent ends of the magnets is 0.1 0.1 mm.

RF patent No. 2092444 MKI (6): C 02 F 1/48 date publ. 1997.10.10

The closest analogue to the proposed utility model is a “Device for magnetic processing of liquids”, containing a ferromagnetic pipe and permanent ring magnets mounted on its outer surface, enclosed in a hermetically sealed ferromagnetic screen and installed so that their main surfaces with the same poles face the pipe axis. In this case, permanent ring magnets are mounted on a ferromagnetic pipe in pairs, at least two pairs and are located in each pair with a gap between them no more than the width of one ring magnet. The pairs of magnets are mounted one relative to the other along the length of the pipe at a distance of not less than three times the width of one ring magnet, each ring magnet made up of adjoining non-working end surfaces of magnetic rods or rectilinear plates

sections, and the main surfaces of the magnets are paired with the outer surface of the pipe.

RF patent No. 2085507 MKI (6): C 02 F 1/48 date publ. 1997/07/27

The technical result of the proposed utility model is to expand the range of use of the device for pipes with different diameters and materials, reduce the corrosion activity of a liquid or gas flow, prevent the formation of deposits on the walls of pipelines and equipment with the erosion of existing deposits, including on heat transfer surfaces, and also reducing the surface tension of liquids (soft water effect).

The achievement of this result is ensured by the fact that the device for magnetic processing of the flow of organic or inorganic liquid or gas contains a module consisting of two identical magnetic systems located diametrically opposite on the outer surface of the pipe with the flow of liquid or gas. The magnetic system contains permanent magnets, whose poles of the same name are directed to the pipe axis, and it is made in the form of a patch plate oriented along the length parallel to the fluid flow and having a vertical section in the form of a sector profile. The sector profile is divided into three parts: the central part has a radially oriented magnetization zone, and two longitudinally oriented zones are located at its edges, while the sector profile mating surface with the pipe is made with a radius of curvature equal to 10-50 of the radius of the pipe. The number of modules of magnetic systems is in the ratio to the diameter of the pipe as 1:50, in turn, the ratio of the length, width and height of the plate of the magnetic system is 8: 4: 1. The casing of each plate of the magnetic system is made of non-magnetic material, the side parts of the casing below have flanges, the holes of which are fastened in the form of a pair of ribs parallel to each other, located in the radial clearance between the plates of the magnetic systems. The top of the plate of the magnetic system between

the casing and permanent magnets is a magnetic core made of soft magnetic steel, the thickness of which refers to the thickness of the plate of the magnetic system as 2: 5.

A device for magnetic processing of a stream of organic or inorganic liquid or gas is illustrated by the drawings:

figure 1 - device for magnetic processing of the flow of organic or inorganic liquid or gas with a minimum diameter of the pipeline with one module (1 - a pair of magnetic systems in the pipeline with D = 50 mm).

figure 2 - device for magnetic processing of the flow of organic or inorganic liquid or gas with three modules (3 - pairs of magnetic systems in the pipeline with D = 150 mm)

The device according to figures 1, 2 contains a module consisting of two identical magnetic systems 1 located diametrically opposite on the outer surface of the pipe 2 with a stream of liquid or gas. The magnetic system 1 contains permanent magnets 3, whose poles of the same name are directed to the axis of the pipe 2. Magnetic system 1 is made in the form of a patch plate oriented along the length parallel to the fluid flow and having a vertical section in the form of a sector profile. The sector profile is divided into three parts: the central part of the permanent magnet plate has a radially oriented magnetization zone, and two longitudinally oriented zones are located at the edges of the permanent magnet plate. The casing 4 of each plate of the magnetic system 1 is made of non-magnetic material, the side parts of the casing below have flanges 5, the holes of which are fastened in the form of a pair of parallel ribs 6 located in the radial clearance between the plates of the magnetic systems. A magnetic circuit 7 is made in the upper part of the plate of the magnetic system between the housing and the permanent magnets.

The device operates as follows: for magnetic processing of a liquid (gas), the inventive device is mounted on a pipeline. The magnetic system has a specific sector profile of magnetization divided into three parts: the central part of the sector profile of the permanent magnet has a radially oriented magnetization zone, and two longitudinally oriented zones are located at its edges. In this regard, an axial magnetic field is created, directed along and towards the flow of liquid (gas), as a result of which it is activated (polarization of molecules), respectively, the ability of their interaction with each other (enlargement) is lost, as well as a rapid increase in the number of crystallization centers in liquids (gas) that are carried out with a stream of liquid from the zones of their possible deposition on the walls of the equipment. In this case, the magnetic flux is distributed at different levels along the cross section of the magnetic circuit, thereby reducing magnetic losses in the ferromagnetic pipe and increasing the main magnetic flux in the working gap.

The application of the technical solution proposed as a useful model allows us to expand the range of use of the device for pipes with different diameters by increasing the use of n-number pairs of magnetic systems for pipes with a large diameter, to reduce the corrosive activity of the liquid or gas flow, and to prevent the formation of deposits on the walls of pipelines and equipment with the simultaneous erosion of existing deposits, including on heat transfer surfaces, as well as reduce the surface tension of liquids (eff CPC soft water).

Claims (1)

A device for magnetic processing of a stream of organic or inorganic liquid or gas, containing a module consisting of two identical magnetic systems located diametrically opposite on the outer surface of the pipe with a stream of liquid or gas, and containing permanent magnets, the same poles of which are directed to the pipe axis, characterized in that the magnetic system is made in the form of a patch plate oriented along the length parallel to the fluid flow and having a vertical section in the form of a sector profile with a flax-oriented magnetization zone in its central part and longitudinally-oriented zones at the edges, while the sector profile surface mating with the pipe is made with a radius of curvature equal to 10-50 of the pipe radius, and the number of modules of magnetic systems is in relation to the pipe diameter as 1: 50, in turn, the ratio of the length, width and height of the plate of the magnetic system is 8: 4: 1, and each plate of the magnetic system is equipped with a housing made of non-magnetic material, a shoulder is made on the sides of the housing ki, the holes of which are mounted in the form of a pair of parallel ribs located in a radial clearance between the plates of the magnetic systems, in addition, in the upper part of the plate of the magnetic system between the housing and the permanent magnets there is a magnetic core made of soft magnetic steel, the thickness of which relates to the thickness of the magnetic plate systems like 2: 5.