RU2229329C1 - Filter for treatment of water systems - Google Patents

Abstract

FIELD: water purification. SUBSTANCE: the invention presents a filter for treatment of water systems. The invention may be used at preparation of the water systems, in particular, for trapping microslimes with the size up to 0.5 micron formed as a result of treatment of the water systems of the heat and power plants. The filter for treatment of the water systems contains: the housing with the top and bottom covers. Inside the housing there is a filtrating section with a central perforated tube, around of which the filtering element is reeled up. The housing and its covers are executed from the ferromagnetic material. The perforated tube is made out of a diamagnetic material. The top cover is supplied with the upper ferromagnetic jumper straps. The filter element is executed from the ferromagnetic grid and is fused to the washer and the upper ferromagnetic jumper straps. The unit of the treated water system delivery is supplied with the distribution device and located in the top cover. The bottom cover is supplied with a branch-pipe for the slime discharge, the bottom ferromagnetic jumper straps and the electromagnetic units containing the magnetizing coils, magnetic conductors with the pole segments and diamagnetic insulators linked with them ferromagnetic jumper straps. The system of formation of the electromagnetic field for action on the filtering member is made electromagnetic. The technical result is an increased efficiency of treatment of the water systems and decreased power consumption. EFFECT: the invention allows to increase efficiency of treatment of the water systems and to decrease power consumption. 5 cl, 1dwg

Description

The invention relates to a device for cleaning water systems by filtration with the simultaneous application of an electromagnetic field from particles containing ferromagnetic impurities and can be used in the preparation of water systems for various industries and agriculture, in particular, for collecting microsludge up to 0.5 microns in size, formed as a result of processing water systems of heat power plants, as well as for other technological purposes.

In the process of processing water systems, for example, water treatment at heating networks, boiler houses, thermal power plants, etc., a sludge circulating in the water system is formed, consisting of particles, the cores of which are ferromagnetic iron compounds, which, as crystallization centers, adsorb carbonate salts on their surface.

A device is known for cleaning water systems from sludge particles, including a housing with a nozzle for supplying the initial water system for cleaning, a flow distributor and branch pipes for removing the purified water system and sludge, electrodes made in the form of a spiral from a mesh and a perforated cylinder and installed inside the housing. For periodic washing of the electrodes, a regeneration system is provided by supplying water under pressure (SU No. 558689, 01 D 35/06, 06/20/77, g).

The disadvantages of the known device are its high energy intensity, as well as the fact that it does not allow to remove particles of contaminants having sizes less than 2 microns.

The closest in technical essence to the proposed one is a filter for cleaning water systems, comprising a housing with upper and lower covers, inside which a filter section is installed, consisting of a central perforated tube, around which a filter element of electrically conductive material is wound, pulled together by a metal mesh made of open cylinder with the ability to connect its ends. The filter is equipped with a supply unit for the treated water system and an outlet unit for the treated water system combined with the regeneration unit of the filter element, as well as a system for creating an electric field for acting on the filter element containing two electrodes, one of which is electrically connected to the central perforated tube of the filter section, and the second - with a metal mesh (RU No. 2060787, 01 D 35/06, 05/27/96). By performing a metal mesh open with the possibility of connecting its ends, it is possible to compress the filter material. Creating a potential difference between the electrodes provides heating of the filter material, which leads to the combustion of polluting organic substances and using inert gas to remove them from the filter housing.

The disadvantages of this filter are the high energy intensity, and the fact that inert gas is used to regenerate the filter element.

The problem to which the invention is directed, is to create a device for trapping particles of microsludge with a size of 0.5-1.5 microns or more with low energy consumption.

The technical result consists in increasing the efficiency of cleaning water systems from contaminants containing ferromagnetic impurities, while reducing energy intensity.

The problem is solved, and the technical result is achieved due to the fact that in the filter for processing water systems containing a housing with upper and lower covers, a filter section is installed inside it, consisting of a central perforated tube, around which a filter element is wound, on top of which there is a washer , the feed node of the treated water system, the drainage node of the treated water system, combined with the regeneration unit of the filter element and connected to the central perforated tube, and the system To create a field for influencing the filter element, the housing and the covers are made of ferromagnetic material, the perforated tube is made of diamagnetic material, the top cover is equipped with upper ferromagnetic jumpers, the filter element is made of a ferromagnetic grid and connected to the washer and upper ferromagnetic jumpers, the feed unit of the processed water the system is equipped with a switchgear and is located in the top cover, the bottom cover is equipped with a nozzle for sludge discharge, lower ferromagnetic jumpers and electromagnetic blocks containing magnetizing coils, magnetic circuits with pole segments and diamagnetic insulators, and connected to the lower ferromagnetic jumpers, and the system for creating a field for acting on the filter element is made electromagnetic, while the outlet for the treated water system is combined with the regeneration unit of the filter element , preferably made in the top cover, the filter contains at least two electromagnetic blocks located on one tier, of quantities o tiers of electromagnetic blocks - one or more, and the inner surface of the housing, upper and lower covers and the mesh of the filter element may be coated with anti-corrosion material.

The drawing shows a General view of the filter for the treatment of water systems.

The filter for processing water systems contains a metal housing 1 with upper 2 and lower 3 covers made of ferromagnetic material, the feed unit of the treated water system 4 is equipped with a switchgear 5 and is located in the upper cover 2. Inside the housing 1 is a central perforated tube 6 made of diamagnetic material and connected to the outlet unit of the treated water system 7, combined with the regeneration unit of the filter element 8. A washer 9 is located on top of the perforated tube 6, to which fasten the filter element 10, made of a grid of ferromagnetic material wound around a central perforated tube 6. Preferably, the outlet of the treated water system 7, combined with the regeneration unit 8, is located in the top cover 2. For certain installation conditions, nodes 7 and 8 can be located in the bottom cover 3. The bottom cover 3 is equipped with a nozzle for discharging sludge 11, electromagnetic blocks containing magnetizing coils 12, magnetic circuits 13 with pole segments 14 and diamagnetic insulators 15, and lower ferromagnetic jumpers 16 connected to electromagnetic blocks. The filter element 10 is rolled up, put on a perforated tube 6 and rests on the pole segments 14 of the magnetic cores 13. If necessary, the mesh can be removed from the housing 1 together with the upper cover 2 provided with upper ferromagnetic jumpers 17 connecting the mesh of the filter element 10 with the upper lid 2. The system for creating a field for influencing the filter element is made electromagnetic, formed of electromagnetic blocks (two or more) and is closed through magnetic circuits 13 with pole segments 14, the mesh of the filter element 10, the ferromagnetic jumpers 16 and 17, the housing 1 and the covers 2 and 3. The filter contains at least two electromagnetic units located on one tier, the number of tiers of the electromagnetic blocks is one or more. To increase the corrosion resistance of the filter, the inner surface of the housing, the upper and lower covers and the mesh of the filter element are coated with an anti-corrosion material.

The filter for the treatment of water systems works as follows.

The system for creating an electromagnetic field is turned on, for which the magnetizing coils 12 are connected to a power source by an electric current (not shown) with the regeneration unit 8 turned off and the closed nozzle to discharge sludge 11.

The water system to be processed is sent to the feed node of the water system to be treated 4 and through the switchgear 5 located in the top cover 2, it is fed into the filter housing 1. The switchgear 5 can be made in the form of a perforated annular tube guiding the jet of the treated water system in the bottom of the upper cover 2 of the housing 1. Washer 9, which closes the access of the treated water system directly into the cavity of the perforated tube 6, bypassing the filter element 10, directs the flow along the annular the gap around the inner surface of the housing 1. The mesh cells of the filter element 10 are under the influence of an electromagnetic field. The water system to be processed passes through the magnetized mesh cells of the filter element 10 in the direction perpendicular to the axis of the filter. Particles of contaminants under the influence of a magnetic field are enlarged and deposited on a grid, and a water system cleaned and processed in an electromagnetic field is supplied to the consumer through a central perforated tube 6 and a discharge unit of the treated water system 7.

The intensity of the capture of contaminants (microsludge particles) depends on the magnitude of the magnetic field, which can be controlled by changing the magnitude of the electric current in the magnetizing coils of 12 electromagnetic blocks, as well as the number of blocks themselves, placing them two or more in one or more tiers (tiers are not shown) , and from the feed rate of the treated water system to the treatment, which can also be adjusted.

During the operation of the filter, contaminants are accumulated on the filter element 10, as a result of which a pressure drop occurs at the outlet of the filter, which is a signal for switching the filter to the regeneration mode of the filter element.

The regeneration process is as follows.

The system for creating an electromagnetic field is disconnected from the power source, the nodes for supplying the treated water system 4 and the outlet for the treated water system 7 are disconnected, the regeneration unit 8 is connected and the pipe for sludge discharge is opened 11. Through the regeneration unit 8 and the central perforated tube 6, washing water is fed into the filter. Rinsing water washes the mesh of the filter element 10 from accumulated contaminants and is discharged from the filter through a pipe to discharge sludge 11.

At the end of regeneration, the filter is put into filtering mode, etc.

To perform continuous filtering, at least two filters are used, which are alternately turned off to regenerate the filter element.

Thus, a filter has been proposed for treating water systems with a magnetic field, which makes it possible to increase the efficiency of trapping particles of contaminants with a content of ferromagnetic impurities at low energy intensity.

Claims (5)

1. A filter for processing water systems, comprising a housing with upper and lower covers, inside which a filter section is installed, consisting of a central perforated tube, around which a filter element is wound, on top of which there is a washer, a supply unit for the treated water system, an outlet unit for the treated water system combined with the regeneration unit of the filter element and connected to the central perforated tube, and a field creation system for acting on the filter element, characterized in that casing and covers are made of ferromagnetic material, the central perforated tube is made of diamagnetic material, the top cover is equipped with upper ferromagnetic jumpers, the filter element is made of ferromagnetic mesh and connected to the washer and upper ferromagnetic jumpers, the feed unit of the treated water system is equipped with a distribution device and is located in the upper cover, the bottom cover is equipped with a nozzle for sludge discharge, lower ferromagnetic jumpers and electromagnetic blocks, neighing magnetizing coils, magnetic circuits with pole segments and diamagnetic insulators and connected to the lower ferromagnetic jumpers, and the field creating system for acting on the filter element is made electromagnetic. 2. The filter according to claim 1, characterized in that the outlet unit of the treated water system, combined with the regeneration unit of the filter element, is made in the top cover. 3. The filter according to claim 1 or 2, characterized in that it contains at least two electromagnetic units located on one tier. 4. The filter according to claim 3, characterized in that the number of tiers with electromagnetic blocks is one or more. 5. The filter according to any one of claims 1 to 4, characterized in that the inner surface of the housing, the upper and lower covers and the mesh of the filter material are coated with anti-corrosion material.