RU2463098C1 - Recoverable filter to clean air of radioactive dust - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to cleaning gases of solid aerosols and may be used in various fields for dust collection, particularly, in nuclear power engineering to clean air of radioactive dust removed from process equipment cases. Proposed filter comprises cylindrical casing with outlet branch pipe, filtration element with open top end face arranged inside said casing and aligned therewith. Annular electromagnet with moving ring from magnetic material rigidly secured atop said casing and aligned therewith, and detachable dust collector attached to casing bottom flange. Besides, filter is provided with elastic diaphragm with central air passage tightly secured on casing top flange. Filtration cartridge is pressed to diaphragm from below while outlet branch pipe with ring fitted thereon is secured thereto from above. Said ring is rigidly secured to branch pipe and electromagnet.

EFFECT: higher efficiency, simple design, ease of manufacture, reliability and longer life.

2 cl, 2 dwg

Description

The invention relates to the field of gas purification from solid aerosols and can be used in various industries for dust collection, in particular in the atomic one for cleaning radioactive dust from air removed from boxes with technological equipment.

A known filter for cleaning gases from solid aerosols (AS RF No. 1212507 from 12.20.83, class B01D 46/10), comprising a housing, flat filter elements with outlet openings in the upper ends, a bellows device, a dividing frame, located between the filtering elements and together with them rigidly connected to the housing with the formation of the package, which is installed with the possibility of moving relative to the bellows device parallel to the filtering plane, the output manifold, shock mechanism and a compensation spring.

The disadvantage of this device is the loss of energy of the shock mechanism for the deformation of the bellows and the spring during the regeneration of the package, as well as the complexity and material consumption of the structure.

Closest to the proposed invention in terms of technical nature and purpose is a regenerated filter for air purification from solid aerosols, including radioactive dust (AS RF No. 2139127 of 08/03/1998, class B01D 46/10), comprising a cylindrical housing with an inlet and an outlet, located inside the housing, a filter element with an open upper end coaxially formed by flat filter devices arranged radially relative to the axis of the housing, connected to the output manifold installed with the possibility of movement, a bellows device, an electromagnet rigidly fixed on the upper part of the housing coaxially with it, there is also a shock mechanism made in the form of a rod with a stop, with an annular striker of magnetic material placed on it, mounted on a stand, while the rod is rigidly connected to the collector and the filter element. This filter is taken as a prototype of the invention.

The disadvantage of the prototype is its structural complexity, material consumption, low-tech manufacturing, as well as the inability to replace the filter element without dismantling the filter.

The objective of the invention is to provide a simple to manufacture, compact and reliable filter for cleaning air from radioactive dust with a high degree of regeneration and the ability to replace the filter element without removing the filter.

The technical result of this invention is a high degree of regeneration, simplicity of design, manufacturability, reliability, long service life, compactness of the proposed filter, as well as the simplicity and environmental friendliness of its maintenance.

This technical result is achieved by the proposed regenerated filter for air purification from radioactive dust, containing a cylindrical housing with an outlet pipe, a filter element in the form of a cartridge with an open upper end, located inside the housing coaxially with it, an annular electromagnet with a movable ring of magnetic material, rigidly fixed on top on the housing coaxially with it, an easily removable dust collector hermetically attached to the lower flange of the housing, an elastic membrane with a central hole for Air ode sealingly attached to the top flange of the housing to which the filter element is pressed against the bottom and attached top outlet with put on it to form a gap therebetween ring fixedly attached to the conduit, and an electromagnet. In addition, the filter housing is made of two parts with the possibility of mounting the filter on top of the box with technological equipment and placing the lower part together with the dust collector inside the box.

The difference between the proposed filter and the prototype is that it is equipped with an elastic membrane with a central hole for the passage of air tightly attached to the upper flange of the housing, to which the filter element in the form of a cartridge is pressed from below, and the outlet pipe is attached on top with a gap between it them ring, rigidly attached to the pipe, and an electromagnet.

Another difference is that the filter housing is made of two parts with the possibility of mounting the filter on top of the box with technological equipment and placing its lower part together with the dust collector inside the box.

High regeneration efficiency, long service life, compactness, manufacturability, simplicity of design and maintenance, reliability in operation are achieved in the proposed filter due to the use of an elastic membrane connected on one side to the filter element and, on the other, to the outlet pipe, which is rigidly mounted a ring of magnetic material connected to the nozzle and an electromagnet, forming between themselves a gap of 1-4 mm. The implementation of the filter housing in two parts with the possibility of mounting the filter on top of the box and placing the lower part together with the dust collector inside the box allows you to clean the dust collector and replace the filter element inside the box, eliminating dust from entering the production room.

From the scientific and technical literature, the authors do not know the regenerated filter for air purification from radioactive dust of the proposed design.

The figure 1 shows a section of the filter, where

1 - filter housing;

2 - filter element;

3 - outlet pipe;

4 - an electromagnet;

5 - a ring of magnetic material;

6 - elastic membrane;

7 - filter mounting on the technological box;

8 - a core;

9 - special nut;

10 - dust collector.

The proposed filter for cleaning air from radioactive dust includes a cylindrical housing (1), in which a filter element (2) is arranged coaxially with it, made in the form of a cartridge with an open upper end. On top of the housing (1), an annular electromagnet (4) is rigidly fixed coaxially with it, an elastic membrane (6) is tightly attached to the upper flange of the housing (1), to which the filter element (2) is pressed, and the outlet pipe (3) is attached at the top with a ring (5) of magnetic material fixed to it, which forms a gap of 1-4 mm in height with an electromagnet (4). Details of the fastening of the magnetic ring to the outlet pipe and the latter to the membrane are not shown in FIG. 1. The filter element (2) is pressed against the membrane (6) by means of a rod (8), the upper end of which is fixed to the outlet pipe, and a special nut (9), which simultaneously centers the lower end of the filter element (2) relative to the filter housing (1). The outlet pipe (3) and the filter element (2) are pulled together by a central rod (8) and a special nut (9) into a single rigid structure that can axially move under the influence of an electromagnet (4) by the amount of clearance between the electromagnet (4) and the ring (5) made of magnetic material. Placing the device pressing the filter element (2) against the membrane (4) on the lower end of the filter element (2) allows you to replace the filter element (2) without removing the filter.

Bottom on the housing (1) is an easily removable dust collector (10). The filter housing (1) is made of two parts and is equipped with a device (7) for mounting the filter on top of the box so that its lower part together with the dust collector (10) is located inside the box.

The filter works as follows. The outlet pipe (3) with its upper end through a piece of elastic hose is connected to an exhaust ventilation system. Under the influence of rarefaction, dusty air enters the filter housing (1) through the inlet pipe located on the dust collector (10), and, passing through the filter element (2), is cleaned of dust. Dust settles on the outer surface of the filter element (2), and the cleaned air enters its internal cavity and then through the outlet pipe (3) to the ventilation system.

As dust accumulates on the surface of the filter element (2), the pressure drop across the filter increases and there is a need for its regeneration. The pressure drop across the filter, at which it is necessary to carry out the regeneration process, is determined empirically during the operation of the filter.

To regenerate the filter, a short electric pulse is supplied to the electromagnet coil (4). Under the action of an electromagnet (4), due to the elasticity of the membrane (6), a ring (5) of magnetic material and a filter element (2) mechanically connected with it quickly move upward before it hits the electromagnet body (4). From the impact and the resulting accelerations, the dust deposited on the surface of the filter element is crumbled, and the filter is restored to operability. Dusty dust accumulates in the dust collector (10). When carrying out regeneration, it is recommended to block the air flow through the filter so that the dust that does not fall off again settles on the surface of the filter element.

To replace the filter element, it is necessary to remove the dust collector (10), unscrew the special nut (9) and remove the filter element (2) from the filter housing (1) down. Installing a new filter element is performed in the reverse order.

A compact regenerated filter for purifying air from radioactive dust with an inner diameter of the housing of 110 mm, a height of the filter element of 400 mm and a filtration area of 0.5 m ² was manufactured and tested. As the filter material, polyester with a fluoroplastic membrane was used, which provides the class of air purification H11 according to GOST R 51251-99. Long-term testing of the filter confirmed its performance. The filter stably provided high filtration efficiency and was well regenerated. After 1200 regeneration cycles, the filter remained operational. At the same time, a uniform thin dust layer remained on the filtering surface, the influence of which on the aerodynamic drag of the filter is insignificant.

Figure 2 shows a graph obtained during testing of the dependence of the pressure drop across the filter on the amount of dust supplied to the filter. The graph shows that when the dust is fed into the filter, its aerodynamic drag increases rapidly, and during regeneration it returns close to the initial state. With a large number of cycles, the filter resistance after regeneration stabilizes at a level slightly higher than the initial resistance of the clean filter.

According to the test results, the proposed regenerated filter for air purification from radioactive dust has high regeneration efficiency, a long service life, is structurally simple, compact, reliable in operation, technologically advanced to manufacture, and also easy to maintain.

From the above it follows that each of the features of the claimed combination to a greater or lesser extent affects the solution of the problem, and the entire population is sufficient to characterize the claimed technical solution.

Claims (2)

1. A regenerated filter for cleaning air from radioactive dust, comprising a cylindrical housing with an outlet pipe, a filter element with an open upper end located coaxially inside the housing, an annular electromagnet with a movable ring of magnetic material, rigidly fixed on top of the housing coaxially with it, and a removable dust collector attached to the lower flange of the housing, characterized in that it is equipped with an elastic membrane with a Central hole for the passage of air tightly attached to the upper Lanz housing to which the filter element is pressed against the bottom of the cartridge, and the top outlet is attached with put on it to form a gap therebetween ring fixedly attached to the conduit, and an electromagnet. 2. The regenerated filter according to claim 1, characterized in that the housing is made of two parts with the possibility of mounting the filter on top of the box with technological equipment and placing the lower part together with the dust collector inside the box.

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