SU784894A1 - Electromagnetic filter-separator - Google Patents

Description

(54) ELECTROMAGNETIC FILTER-SEPARATOR

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The invention relates to the field of magnetic separation of substances and can be used for enriching minerals in heat and power engineering, metallurgy and other industrial sectors for cleaning liquid from magnetic inclusions. ,

Known magnet. Filter, which has a magnetizing system, the body is divided by curly undulating partitions into channels in which the filtering magnetic elements (nozzle) are placed. The magnetizing system consists of electromagnets that make up a closed circuit together with the nozzle. Electromagnets are located along the entire height of the filter layer 1.

A disadvantage of the known filter is the low cleaning efficiency.

The aim of the invention is to increase the contact time of the fluid with the filtering magnetized nozzle, increase the reliability of the design at high pressures, increase the length of the effectiveness of the cleaning zone and increase the degree of purification of the filtered fluid.

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The goal is achieved by the fact that the figured partitions are eliminated, the filter housing is made of separate independent circular sections filled with ferromagnetic filler throughout the working section (the cleaned liquid passes through the filter nozzle perpendicular to the planes of all

About magnetic circuits), the electromagnets of the magnetizing system are equipped with ferromagnetic plates of magnetically annealed material, which enclose cylindrical bodies with a certain gap between the ends of the opposing plates. An increase in the circumference angle and a decrease in the gap due to this size is only advisable to a certain value D, since. at relatively small gaps, the generated magnetic flux will mainly pass not through the filtering nozzle, but through the gap.

2S of the magnetic flux through the filter nozzle its magnetic resistance R ((there should be negligible (less than 5%) magnetic resistance of the two gaps. K

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Considering that

in - R -. WITH

-L (S

where the magnetic permeability of the nozzle; 1 magnetic n | probability of air

spirit;

D, L, S - diameter, length, axially e section of the nozzle () we find that

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Figure 1 shows the housing in section; figure 2 is the same, top view;

The filter separator contains independent cylindrical bodies 1 with a ferromagnetic filter nozzle 2, an electromagnetic system consisting of sections successively arranged in a circle, including a coil 3, a core 4, ferromagnetic plates 5. Successively located sections of the electromagnetic system and cylindrical bodies with a ferromagnetic filter nozzle form closed magnetic circuit.

The filter separator works as follows.

 Filterable; the fluid moving from the bottom of the BBspx through the pipeline b / enters the cylindrical filter housings, where the passage through the ferromagnetic filter nozzle 2, which is in the magnetic field of the electromagnetic system, is cleaned of impurities. The filtered liquid is withdrawn from the filter through line 7.

The number of cylindrical housings, their diameters and wall thickness are determined based on the flow rate of the liquid being filtered and the operating pressure. Depending on the required cleaning level, several electromagnetic systems can be installed in the filter separator. The presence of ferromagnetic plates of magnetically annealed mild steel, having improved magnetically conductive properties, significantly increase the effective cleaning zones and the contact time of the medium being cleaned with the magnetized filtering

nozzle The presence of independent cylindrical housings allows for the replacement, disassembly, if necessary, of each housing separately, without dismantling the entire filter separator.

A filter separator can be used to clean a liquid at both low and high pressures. When it is used, the contact time of the liquid with the magnetized filter nozzle increases, areas of effective magnetic field on the liquid being cleaned increase, and the degree of cleaning increases.

Formupa invention

Claims (3)

1. Electromagnetic filter separator, which includes channels with a ferromagnetic filter nozzle and electromagnets with cores, which form a closed loop with the nozzle, characterized in that, in order to increase the degree of cleaning of the filtered liquid, the electromagnet cores are equipped with a ferromagnet with plates 2. A filter separator according to claim 1, in which, in order to increase reliability at high pressure, to increase the effective length cleaning zones, channels made vi, de tubular shells. 3. The filter-separator according to claim 1.2, which is different in that the plates are located at the ends of the cores along the outer diameter of the hulls, while the distance between the ends of the opposing plates is determined from the relation: L 10 7G where rf is the plate thickness; yd - relative magnetic permeability of the nozzle; D is the distance between the ends of the opposing plates. Sources of information taken into account in the examination 1. USSR author's certificate 526369, cl. B 01 D 35/06, 08/30/76 Fi1 Fi. 2