RU2731700C1 - Filtration unit and filtration element included therein - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: invention relates to ventilation, mainly to structural elements of air filtration systems, namely to precipitation filters of electrostatic plants for air purification. Filtering unit includes housing and at least two filtration elements, wherein filtration element consists of at least filtering material 4 and screen of electromagnetic field 5, wherein filter material 4 is made of polymer fibrous material with chaotic arrangement of fibres, and shield of electromagnetic field 5 of metal wire is arranged around surface of filter material, wherein the distance between the nearest rows of metal wire is less than the distance between filtration elements located in the housing.

EFFECT: technical result consists in improvement of efficiency of air filtration in installation for air cleaning, obtaining of optimum design by ratio of parameters: efficiency of filtration, dimensions and energy efficiency.

11 cl, 6 dwg

Description

Application area

The invention relates to the field of ventilation, mainly to structural elements of air filtration systems, namely to filters precipitators of electrostatic installations for air purification.

State of the art

Known "Electrostatic filter with increased deposition area" (RU 2174873). This filter contains a power supply system, a system of contacts, alternating potential and grounded plate electrodes, installed at a distance of at least 5 mm from each other in a box-shaped case, vertically relative to it and parallel to the air flow and mechanically fixed in it. The electrodes are made of a dielectric material with a thickness of at least 0.5 mm and neutral electrodes are installed between them, which are parallel to the plate electrodes, are equal to them and are installed at the same distance from two adjacent ones. The electrodes can also be made in the form of horizontal plate inserts, the length of which is no more than the distance between the electrodes, having the shape of a rectangle with rounded corners and installed symmetrically relative to the plate in the slots, which are made in a row both vertically and horizontally in plate electrodes, when This inserts adjacent plates are staggered relative to each other.

The disadvantage of an electrostatic filter with an increased deposition area is the low capacity and the associated and, consequently, a rapid decrease in filtration efficiency and the need for frequent cleaning of the electrodes from particles deposited on them.

Known electrostatic filter for air purification (RU 125894), consisting of an electrostatic charging unit with corona and installed parallel to the air flow plate grounded electrodes, and a unit for deposition of charged particles. In this case, the latter is a housing in the cavity of which is installed at least one filter element made of a porous nonwoven material consisting of micron and submicron synthetic fibers with a dipole moment.

The disadvantage of this filter is that when two or more filter elements are located in the charged particle deposition unit, electromagnetic fields influence each other as a result of which the filtration efficiency decreases, while if the filter elements are located at such a distance at which the electromagnetic fields of neighboring filtering elements will not affect each other, this will significantly increase the size of the particle deposition unit and the filter as a whole.

Known air purification device (RU 2480244), including a mechanical filter, a source of UV radiation, metal electrostatic and photocatalytic filters, an electrostatic filter precipitator made of dielectric material, an adsorption-catalytic filter, additionally contains a sorption filter, an electrostatic filter precipitator, electrostatic and photocatalytic filters are collected together into a single combined multilayer element, each layer of which is made of a highly porous material with a photocatalytic nanostructured coating applied to its surface, while the electrostatic and photocatalytic filters, between which the precipitator is placed, are made of foam metal, and the UV radiation source is located directly near the electrostatic filter ...

The disadvantage of this technical solution is the need for a significant increase in the voltage across the electrodes. It is known that for effective particle charging, it is necessary to ensure a sufficiently long stay of aerosol particles in the area where charging takes place at high values of the electric field strength (on similar devices, the length of the charging section is from 30 to 100 mm at a flow rate of no more than 4-6 m / s) ... In the presented design, to achieve the required charges of aerosol particles, it is necessary to increase the distance between the electrodes and, as a consequence, increase the voltage applied to the electrodes. This leads to higher system costs, higher pressure drop and reduced reliability.

Brief description of the invention

The object of the present invention is to provide a device that ensures the deposition of fine dust particles and various other constituents of air pollutants.

The technical result consists in increasing the efficiency of air filtration in an air purification unit, obtaining an optimal design in terms of the ratio of parameters: filtration efficiency, dimensions and energy efficiency.

The technical result is achieved in the invention according to paragraph 1 of the formula due to a filtration unit, including a housing and at least two filtration elements, while the filtration element consists of at least a filter material and an electromagnetic field shield, while the filter material is made of polymer fibrous material with a random arrangement of fibers, while the shield of the electromagnetic field made of metal wire is placed around the surface of the filtering material, while the distance between the nearest rows of metal wire is less than the distance between the filtering elements located in the housing.

It is possible to make a filtration unit with a distance between the nearest rows of metal wire of the filtration element of 3-8 mm.

In addition, it is possible to make a filtration block with a distance between filtration elements of 5-10 mm.

It is also possible to implement a filtration unit, in which the walls of the body in the places of abutment of the filtration elements are made with cradles in the shape of the filtration elements.

The technical result is achieved in the invention in terms of a filtration element with a specific design of a filtration element, including a filter material and an electromagnetic field shield, while the filter material is made of a polymeric fibrous material with a chaotic arrangement of fibers, while the electromagnetic field shield in the form of a metal wire is placed around the surface of the filter material ...

In this case, it is possible to implement a filtering element in which an electromagnetic field shield made of a metal wire is placed in a spiral around the surface of the filtering material.

It is also possible to make a filtering element, in which an electromagnetic field shield made of a metal wire is placed around the surface of the filtering material, forming a mesh.

It is possible to make a filtering element in which the filtering material has the shape of a cylinder.

It is also possible to make a filtering element in which the filtering material has the shape of a truncated cone.

It is possible to implement a filtration element in which the filter material contains micron and submicron fibers.

It is possible to perform a filtration element in which the wall thickness of the filter material is 45-55 millimeters.

Description of figures

The claimed invention is illustrated by the following figures.

Figure 1 shows a general view of the filtration unit, including filtration elements.

Figure 2 shows a general view of the filtration unit, including filtration elements (top view).

Figure 3 shows an embodiment of a filtering element with an electromagnetic field shield placed in the form of a grid.

Figure 4 shows an embodiment of a filtering element with an electromagnetic field shield placed in a spiral.

Figure 5 shows an air purification plant.

Figure 6 shows a block diagram of an air purification plant.

Position 1 - filtering element.

Position 2 - body.

Position 3 - lodgements according to the filter element shape.

Position 4 - filter material. Position 5 - shield of the electromagnetic field.

Position 6 is the distance between the nearest rows of metal wire.

Position 7 - filtration block.

Position 8 - prefilter.

Position 9 - electrostatic unit.

Position 10 - adsorption catalytic filter

Position 11 - air distribution panel.

Position 12 is the distance between the filtration elements located in the housing.

Detailed description of the invention

The filtration element 1 consists of a filter material 4, which provides filtration of the incoming air stream from impurities, including small particles of dust and aerosols, and an electromagnetic field shield 5. The filter material 4 is made of fibrous polymer material with a chaotic arrangement of micron and submicron fibers, in polypropylene, polyethylene, as well as polyurethane can be used as a polymer material. At the same time, the filter material 4 can be rolled up in the form of a cylinder, the outer diameter of which is 85-100 millimeters, and the inner diameter is 35-45 millimeters, thus the wall thickness of the filter material 4 in the rolled form can be 45-55 millimeters. Also, the filter material 4 can be rolled up in the form of a truncated hollow cone with a wall thickness of 45-55 millimeters. The shield of the electromagnetic field 5 is made in the form of a metal wire placed around the surface of the filter material, the wire can be made of stainless steel, as well as any other metal, for example, aluminum, copper, etc. In this case, the screen of the electromagnetic field 5 is made in the form of a metal wire placed in a spiral around the surface of the filtering material, it is also possible to place the screen of the electromagnetic field 5 from a metal wire placed around the surface of the filtering material forming a mesh.

The implementation of the filter material 4 from a polymeric fibrous material with a chaotic arrangement of fibers ensures reliable filtration of the incoming stream from various types of contaminants, including fine dust particles and various aerosols, including smoke, and the presence of 4 micron and submicron fibers in the filter material ensures deposition of the smallest solid dust particles and the smallest liquid particles of the dispersed phase, thereby increasing the efficiency of air filtration in the air purification plant, in addition, the implementation of the filter material 4 from polymer fibrous material, for example, from polypropylene, polyethylene or polyurethane, provides high resistance to external aggressive factors , to biological effects (mold, fungus, etc.), also, such a material is toxicly safe - it does not emit harmful substances, in addition, such a material has low hydroscopicity (absorbs little moisture), which also contributes to an increase in eff the efficiency of air filtration in an air purification plant. The implementation of the filter material 4 in the form of a hollow cylinder, which is the most preferred embodiment, provides the possibility of optimal placement of the filtration element 1 in the housing 2 of the filtration unit 7 while ensuring optimal parameters such as: dust holding capacity, pressure drop and hence filtration efficiency, i.e. the highest possible dust holding capacity at the lowest pressure drop and therefore the filtration efficiency increases, in addition, energy efficiency and compactness of the equipment increase. At the same time, it is possible to make the filter material 4 rolled up in the form of a hollow truncated cone, this embodiment is used in cases where it is necessary to reduce the pressure drop in the filtering element 1, that is, in cases where the aerodynamic factor is an important factor to increase the filtration efficiency, namely the minimum pressure drop in the filtration element 1 and, as a whole, in the filtration unit 7. The implementation of the filter material 4 in a rolled form with a wall thickness of 45-55 millimeters provides an inner diameter of 35-45 millimeters and an outer diameter of 85-100 millimeters, which allows for optimal placement of the element filtration 1 in the housing 2 of the filtration unit 7 while ensuring optimal dust holding capacity while minimizing the pressure drop and therefore increasing the filtration efficiency.

The implementation of the electromagnetic field shield 5 from a metal wire placed around the surface of the filtering material 4 provides uniform screening of the electromagnetic field while maintaining a minimum pressure drop in the filtering element 1 and its ability to pass an air flow, while providing the possibility of placing several, at least two, filtering elements 1 in the housing 2 of the filtration unit 7 in close proximity to each other, excluding the possibility of the effect of electromagnetic fields generated in the filtration elements 1 on each other.

The implementation of the screen of the electromagnetic field 5 in the form of a metal wire placed in a spiral around the surface of the filter material ensures optimal distribution of the screen of the electromagnetic field 5 around the surface of the filter material, while ensuring uniform screening of the electromagnetic field while maintaining a minimum pressure drop in the filter element 1 and its ability to pass air flow

The implementation of the electromagnetic field shield 5 in the form of a metal wire placed around the surface of the filtering material, forming a mesh, provides a more reliable fastening of the electromagnetic field shield 5, and also contributes to a more uniform screening of the electromagnetic field while maintaining a minimum pressure drop in the filtering element 1 and its ability to pass air flow ...

Thus, the design of the filtration element 1 allows to increase the efficiency of air filtration in the air purification plant and contributes to obtaining the optimal ratio: filtration efficiency, dimensions and energy efficiency of the structure.

The filtration unit consists of at least a housing 2 and two filtration elements 1, while the filtration element 1 consists of at least a filtering material 4 and an electromagnetic field shield 5, while an electromagnetic field shield made of metal wire is placed around the surface filter material, while the distance 6 between the nearest rows of metal wire is less than the distance 12 between the filtration elements 1 located in the housing 2, while the distance 6 between the nearest rows of metal wire can be 4-7 millimeters and, accordingly, the distance 12 between the filtration elements 1 located in case 2 can be 5-10 millimeters. The body 2 is made of a polymeric material, for example, plastic, the walls of the body 2 at the points of abutment of the filtration elements 1 can have lodges 3 in the shape of the filtration element. The optimal version of the filtration unit 7 is the location in the housing 2 of twenty-five filtration elements 1, forming five rows of five filtration elements 1 in each.

A filtration unit 7, including a housing 2 and at least two filtration elements 1, can be used in an installation for air purification (Fig. 6, Fig. 5). The air purification unit includes: a pre-filter 8, an electrostatic unit 9, a filtration unit 7, an adsorption-catalytic filter 10, an air distribution panel 11.

Prefilter 8 retains coarse dust and prevents dirt, fluff, wool from entering the device from the supply ventilation system; further passing through the electrostatic unit 9, mechanical pollutants, such as fine solid dust particles and the smallest liquid particles of the dispersed phase, that is, aerosols and bioaerosols acquire an electrostatic charge, in addition, the electrostatic unit 9 produces ozone from oxygen entering it along with the air flow, thus, due to ozone produced from oxygen by the electrostatic unit 9 in bactericidal concentrations, inactivation of viruses, bacteria, and also mold spores is ensured; then the air flow enters the filtration unit 7, where the particles electrostatically charged in the electrostatic unit 9 are on the fibers of the filter material 4, the filtration elements 1, while, due to the chaotic arrangement of the filter material 4, the probability of settling of fine particles on the fibers of the filter material 4 increases, the content of micron and submicron fibers contributes to the deposition of the smallest particles of dust and aerosols on them, while settling in the filter material 4 filtration elements 1 electrostatically charged particles create an electromagnetic field, but the electromagnetic field shield 5 prevents the penetration of electromagnetic field lines beyond the filtration elements 1 , this allows you to place several, at least two, filtration elements 1 in close proximity to each other, excluding the possibility of the effect of the generated electromagnetic fields on the nearby filtration elements 1, which cn It increases the efficiency of air filtration in the air purification plant, because in the case of exposure to the electromagnetic field of one filtering element 1 on another filtering element 1, the filtration efficiency of this filtering element 1 decreases; further, ozone produced from oxygen by the electrostatic unit 9 is completely decomposed to oxygen, passing through the adsorption-catalytic filter 10; and then the flow passing through the air distribution panel 11 is evenly distributed throughout the volume of the room.

The execution of the walls of the housing 2 having at the abutment points of the filtration elements 1 lodgments 3 in the shape of the filtration element in the form of recesses partially repeating the shape of the filtration elements 1 eliminates the possibility of deformation of the filtration elements 1 located along the walls of the housing 2 of the filtration unit 7, thereby making it possible to use the entire volume of the filter material 4 filtration elements 1 located along the walls of the housing 2 of the filtration unit 7, thereby increasing the efficiency of air filtration in the air purification plant and contributing to an optimal balance of such parameters as filtration efficiency, dimensions and energy efficiency of the structure.

Thus, the filtration unit 7 makes it possible to place in it several, at least two, filtration elements 1 in close proximity to each other, thereby increasing the filtration area and, consequently, increasing the efficiency of air filtration in the air purification plant.

Thus, the claimed technical solutions, namely a filtration element and a filtration unit, including filtration elements, can improve the efficiency of air filtration in an air purification unit and allow an optimal design in terms of the ratio: filtration efficiency, dimensions and energy efficiency.

Claims (11)

1. A filtration unit, including a housing and at least two filtration elements, while the filtration element consists of at least a filtering material and an electromagnetic field shield, while the filtering material is made of polymeric fibrous material with a random arrangement of fibers, when In this case, an electromagnetic field shield made of a metal wire is placed around the surface of the filter material, while the distance between the nearest rows of metal wire is less than the distance between the filter elements located in the housing. 2. The filtration unit according to claim 1, characterized in that the distance between the nearest rows of metal wire is 4-7 mm. 3. The filtration unit according to claim 1, characterized in that the distance between the filtration elements located in the housing is 5-10 mm. 4. The filtration unit according to claim 1, characterized in that the walls of the casing at the places where the filtration elements adjoin are made with cradles in the shape of the filtration elements. 5. A filtration element, including a filtering material and an electromagnetic field shield, wherein the filtering material is made of polymeric fibrous material with a random arrangement of fibers, while the electromagnetic field shield of a metal wire is placed around the surface of the filtering material. 6. A filtration element according to claim 5, characterized in that an electromagnetic field shield made of a metal wire is arranged in a spiral around the surface of the filter material. 7. A filtering element according to claim 5, characterized in that the electromagnetic field shield is placed around the surface of the filtering material, forming a mesh. 8. A filtration element according to claim 5, characterized in that the filter material is cylindrical. 9. A filtration element according to claim 5, characterized in that the filter material has a frusto-conical shape. 10. A filtration element according to claim 5, characterized in that the filter material contains micron and submicron fibers. 11. A filtration element according to claim 5, characterized in that the wall thickness of the filter material is 45-55 mm.

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