RU2608402C1 - Vertical tubular electric filter (versions) - Google Patents

Abstract

FIELD: technological processes; gas industry.

SUBSTANCE: invention relates to electric cleaning of gases from suspended particles in different industries, in particular, in chemical and petrochemical industry, metallurgy and other industries. Vertical tubular electric filter comprises a housing, precipitation electrodes, corona-forming electrodes, power supply, characterised by that it comprises an electric drive, rigidly coupled with mechanical transmission, which in its turn is connected to precipitation electrodes arranged in form of hollow drums, configured to rotate on horizontal axles in insulators and bearings, wherein axles are hollow having inside them high-voltage wires, some ends of which are fixed on inner side of precipitation electrodes, and other ends are attached to contact rings fitted on axis of precipitation electrodes, having a sliding contact with brush assemblies mounted on housing and connected by high-voltage wires to power supply, which is also connected with corona-forming electrodes, fixed in insulation inserts, which are fixed in housing of vertical tubular filter in lower part of which there is a catalyst, and at ends of housing there are discharge sleeves to secure scrapers are attached, wherein sleeves are connected with dust collector bin. In vertical tubular electric filter according to second version, precipitation electrodes are made in form of hollow drums and are configured for rotation on vertical axes in insulators and bearings fitted in horizontal inserts of housing, wherein number of precipitation and corona-forming electrodes, as well as their diameters are selected, based on need to ensure required cleaning of gases of combustion products.

EFFECT: technical result is providing permanently clean surface of precipitation electrode in active zone of electric filter, which provides higher efficiency of electric filter due to exclusion of ash dust, repeated sticking settled dust when cleaning of precipitation electrodes and elimination of intermittent nature of voltage supply to precipitation and corona-forming electrodes.

2 cl, 4 dwg

Description

The invention relates to the electrical cleaning of gases from suspended particles in various industries, in particular in the chemical and oil refining industries, metallurgy, etc.

Known electrostatic precipitator [patent RU 2551516 C2, IPC B01D 35/06, B01D 46/00, published May 27, 2015], comprising a housing, gas distribution grids, precipitation and corona electrodes and mechanisms for shaking them, the gas distribution grid at the outlet of the electrostatic precipitator is doubled, one of parts movable and divided in width into movable parts, and the movement of the movable parts of the gas distribution grid is synchronized with the moment of shaking the precipitation electrode, located opposite the two movable parts of the gas distributor th grating.

The disadvantage of this design is its complexity.

Known electrostatic precipitator [patent RU 2525539 C1, IPC B03C 3/08, published 08/20/2014], containing corona and precipitation electrodes installed in the housing with inlet and outlet openings, an additional precipitation electrode installed in the outlet, and the additional precipitation electrode is made in the form of installed with a gap of at least 0.1 μm relative to each other of electrically conductive grounded structural elements that overlap the cross section of the outlet.

The disadvantages of the analogue are the complexity of the design.

Closest to the proposed is a vertical tubular electrostatic precipitator [patent RU 2551606 C1, IPC B03C 3/74, published 05.27.2015], comprising a housing, precipitation electrodes, corona electrodes and a power source, the precipitation electrodes are movable between the guides for vertical movement direction, there are strikers interacting with the anvils, and a device for lifting and dropping the electrodes on the anvil, and in the lower position the pipes are connected to the hopper through the holes in the hopper cover.

The disadvantage of the prototype is the large size of the filter.

The objective of the invention is to reduce the mass and dimensions of a vertical tubular electrostatic precipitator due to the use of cylindrical precipitation electrodes, allowing to ensure the presence of a constantly clean surface of the precipitation electrode in the active zone of the electrostatic precipitator.

The technical result is the provision of a constantly clean surface of the precipitation electrode in the active zone of the electrostatic precipitator, which helps to increase the efficiency of the electrostatic precipitator by eliminating dust entrainment, re-sticking of settled dust during cleaning of the precipitating electrodes and eliminating the intermittent nature of the voltage supply to the precipitating and corona electrodes.

The problem is solved and the technical result is achieved by carrying out the invention in 2 versions.

According to the first embodiment, the vertical tubular electrostatic precipitator comprises a housing, precipitation electrodes, corona electrodes, and a power source. Unlike the prototype, the device contains an electric drive rigidly connected to a mechanical transmission, which in turn is connected to precipitation electrodes made in the form of hollow drums, with the possibility of rotation on horizontal axes in insulators and bearings, the axes are hollow with high-voltage wires located inside them, some ends of which are fixed on the inside of the precipitation electrodes, and other ends are attached to the contact rings mounted on the axis of the precipitation electrodes, having a sliding contact with brush assemblies fixed on the housing and connected by high-voltage wires to a power source, which is also connected to corona electrodes, also fixed in insulating inserts, mounted in the housing of a vertical tubular electrostatic precipitator, in the lower part of which there is a catalyst, and outlet arms are located from the ends of the housing in which the scrapers are fixed, the sleeves are connected to the hopper with a dust collector.

According to the second embodiment, the vertical tubular electrostatic precipitator comprises a housing, precipitation electrodes, corona electrodes, and a power source. Unlike the prototype, the device contains an electric drive rigidly connected with a mechanical transmission, which in turn is connected to precipitation electrodes made in the form of hollow drums, with the possibility of rotation on vertical axes in insulators and bearings fixed in horizontal inserts of the housing, the axes are made hollow with high-voltage wires located inside them, some ends of which are fixed on the inside of the precipitation electrodes, and the other ends are attached to contact rings, mounted on a vertical axes of precipitation electrodes, which have sliding contact with brush assemblies connected by high-voltage wires to a power source, which is also connected to corona electrodes, also fixed in insulating inserts, fixed in the housing of a vertical tubular electrostatic precipitator, in the lower part of which there is a catalyst, and from the ends of the housing there are outlet sleeves in which scrapers are fixed, the sleeves are connected to the hopper with a dust collector, the number of precipitation and corona electrodes, as well as their diameters are selected based on the need to provide the necessary purification of gases of combustion products.

The technical result, ensuring the presence of a constantly clean surface of the precipitation electrode in the active zone of the electrostatic precipitator, is achieved by installing precipitation electrodes with the possibility of rotation on the axis in the horizontal or vertical position in the bearings, which allows you to continuously remove the settled dust layer in scrapers with scraper, so there is no need shaking the precipitation electrodes and disconnecting the supply voltage from them, in addition, this solution allows you to bypass the cleaned gas stream. This ensures the presence of a constantly clean surface of the precipitation electrode in the zone of deposition of dust particles.

The invention is illustrated by drawings.

The drawings depict the claimed device.

In FIG. 1 - a General view of a vertical tubular electrostatic precipitator with horizontal precipitation electrodes (1 option).

In FIG. 2 is a side view of a vertical tubular electrostatic precipitator with horizontal precipitation electrodes (1 option)

In FIG. 3 is a general view of a vertical tubular electrostatic precipitator with vertical precipitation electrodes (option 2).

In FIG. 4 is a top view of a vertical tubular electrostatic precipitator with vertical precipitation electrodes (option 2).

The vertical tubular electrostatic precipitator according to the first embodiment contains (Fig. 1) a housing 1, precipitation electrodes 2, corona electrodes 3, a power supply 4 (Fig. 2), an electric drive 5, a mechanical transmission 6, vertical axes 7, bearings 8, insulators 9, high voltage wires 10, insulating inserts 11, brush assemblies 12, slip rings 13, catalyst 14 (Fig. 1), scrapers 15, outlet sleeves 16, dust bin 17.

The vertical tubular electrostatic precipitator according to the second embodiment contains (Fig. 3) a housing 1, precipitation electrodes 2, corona electrodes 3, a power supply 4, an electric drive 5, a mechanical transmission 6, vertical axes 7, bearings 8, insulators 9, high-voltage wires 10, insulating inserts 11, brush assemblies 12, slip rings 13, catalyst 14, scrapers 15 (FIG. 4), discharge sleeves 16, dust bin 17 (FIG. 3), horizontal inserts 18.

The device according to the first embodiment works as follows: A vertical tubular electrostatic precipitator (Fig. 1) is placed either on a pipe that exhausts the products of combustion, or a housing 1 is installed directly in the body of the pipe that takes away the products of combustion, then voltage is supplied from a power source 4 (Fig. 2) to an electric drive 5, which through a mechanical transmission 6 transmits torque to the horizontal axes 7, rotating in bearings 8 and transmitting the torque through insulators 9 to precipitation electrodes 2, made in the form of hollow drums c, at the same time, power from the power supply 4 through high-voltage wires 10 is supplied to the corona electrodes 3 fixed in insulating inserts 11 in the housing 1 of the vertical tubular electrostatic precipitator and to the brush assemblies 12, from which voltage is transmitted through the sliding contact to the contact rings 13, mounted on the horizontal axis 7 of the precipitation electrodes 2, from which, through high-voltage wires 10 located in the cavities of the horizontal axes 7, the voltage is transmitted directly to the precipitation electrodes 2. Through an electric the filter starts to receive the cleaned gas with the remains of the combustion products, the afterburning of which is carried out using the catalyst 14 (Fig. 1) located in the lower part of the electrostatic precipitator, thus, the remnants of unburned fuel that can lead to malfunction of the electrostatic precipitator do not get into the electrostatic precipitator. From the cleaned gas passing through the field created by the corona 3 and precipitation electrodes 2, dust particles are deposited on the surface of the precipitation electrodes 2, from which, due to the moment of rotation received from the mechanical transmission 6 and the electric drive 5, dust particles are deposited using scrapers 15 removed and fall into the discharge sleeves 16, bypassing the cleaned dust and gas stream, while disconnecting the corona 3 and precipitation electrodes 2 from the power source 4 is not required. The removed dust particles from the sleeves are collected in the hopper of the dust collector 17. Thus, in the vertical tubular electrostatic precipitator secondary dust removal is completely eliminated, which dramatically increases its efficiency.

The device according to the second embodiment works as follows: A vertical tubular electrostatic precipitator (Fig. 3) is placed either on a pipe that exhausts the products of combustion, or a housing 1 is installed directly in the body of the pipe that removes the products of combustion, then a voltage is supplied from the power supply 4 to the electric drive 5, which through a mechanical transmission 6 transmits torque to the vertical axes 7, rotating in bearings 8 and transmitting the torque through insulators 9 to precipitation electrodes 2, made in the form of hollow drums, at the same time At the same time, the power from the power supply 4 through high-voltage wires 10 is supplied to the corona electrodes 3, fixed in insulating inserts 11 and to the brush assemblies 12, from which voltage is transmitted through the sliding contact to the contact rings 13, mounted on the vertical axis 7 of the precipitation electrodes 2, from which through high-voltage wires 10 located in the cavities of the vertical axes 7, the voltage is transmitted directly to the precipitation electrodes 2. The gas to be purified begins to flow through the electrostatic precipitator with product residues burning out, which afterburning is carried by a catalyst 14 located at the bottom of the precipitator, so unburned fuel residues are not subject to electrostatic, could lead to failure of the electrostatic precipitator. From the cleaned gas passing through the field created by the corona 3 and precipitation electrodes 2, dust particles are deposited on the surface of the precipitation electrodes 2, from which, due to the moment of rotation received from the mechanical transmission 6 and the electric drive 5, using scrapers 15 (Fig. 3) deposited dust particles are removed and fall into the discharge sleeves 16, bypassing the cleaned dust and gas stream, while disconnecting the corona 3 and precipitation electrodes 2 from the power source 4 is not required. The removed dust particles from the sleeves are collected in the hopper of the dust collector 17 (Fig. 3). Thus, in a vertical tubular electrostatic precipitator secondary ablation of dust is completely eliminated, which dramatically increases its efficiency. Precipitation electrodes 2 and corona electrodes 3 are placed vertically and are installed in horizontal inserts 18 of the housing 1.

So, the claimed invention allows to reduce such indicators as the mass and dimensions of a vertical tubular electrostatic precipitator due to the use of cylindrical precipitation electrodes rotating by means of an engine and mechanical transmission and cleaned by scrapers installed in the discharge sleeves, which ensures the presence of a constantly clean surface of the precipitation electrode in the active zone . Due to this, there is no longer any need to brush out the precipitation electrodes, which eliminates the mechanism for moving the electrodes, strikers and anvils used in the prototype, which reduces the mass of the electrostatic precipitator.

Claims (2)

1. A vertical tubular electrostatic precipitator containing a housing, precipitation electrodes, corona electrodes, a power source, characterized in that it contains an electric drive rigidly connected to a mechanical transmission, which in turn is connected to the precipitation electrodes made in the form of hollow drums, with the possibility of rotation horizontal axes in insulators and bearings, and the axes are hollow with high-voltage wires located inside them, one ends of which are fixed on the inside of the precipitation ctrodes, and the other ends are attached to contact rings mounted on the axis of the precipitation electrodes, having sliding contact with brush assemblies mounted on the housing and connected by high-voltage wires to a power source, which is also connected to corona electrodes fixed in insulating inserts that are fixed in the housing vertical tubular electrostatic precipitator, in the lower part of which the catalyst is located, and from the ends of the housing there are discharge arms in which scrapers are fixed, while the arm a hopper connected to the dust collector. 2. A vertical tubular electrostatic precipitator containing a housing, precipitation electrodes, corona electrodes, a power source, characterized in that it contains an electric drive rigidly connected to a mechanical transmission, which in turn is connected to the precipitation electrodes made in the form of hollow drums, with the possibility of rotation vertical axes in insulators and bearings mounted in horizontal inserts of the housing, the axes being hollow with high-voltage wires located inside them, one ends of which are closed are replicated on the inside of the precipitation electrodes, and the other ends are attached to slip rings mounted on the vertical axis of the precipitation electrodes, having sliding contact with brush assemblies connected by high-voltage wires to a power source, which is also connected to corona electrodes fixed in insulating inserts that are fixed in the casing of a vertical tubular electrostatic precipitator, in the lower part of which there is a catalyst, and from the ends of the casing there are outlet arms, in which CREPLA scrapers, wherein the sleeves are connected to the hopper a dust collector, the amount of the collecting and discharge electrodes, and their diameters are selected based on the need to ensure the necessary cleaning of gases of combustion products.

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