RU204684U1 - Cyclone filter for gas cleaning - Google Patents

Abstract

The utility model is intended for cleaning dusty gases and can be used in the heat and power, metallurgical and petrochemical industries. The technical result of the utility model is to increase the environmental efficiency of the cyclone filter operation and increase the reliability of its operation as a whole. To achieve the technical result, the cyclone filter for gas cleaning. contains a vertical cylindrical body with a conical bottom, equipped with a nozzle for dust removal, a nozzle for supplying a dusty gas flow located tangentially to the body, a cover, an exhaust pipe that acts as a nozzle for removing purified gas, inside which filters are installed in the form of meshes with different mesh sizes , which are evenly spaced along the height of the exhaust pipe. At the same time, a mesh is installed in the lower part of the exhaust pipe to remove coarse particles, a mesh is installed in the middle of the pipe to remove medium-dispersed particles, and a mesh is installed in the upper part of the pipe to remove fine particles. The degree of gas cleaning from dust can reach 90% with long-term reliability of operation. cyclone filter that is higher than the design values.

Description

The utility model is intended for cleaning dusty gases from dust and can be used in heat power, metallurgical and petrochemical industries.

Known cyclone containing a vertical cylindrical body with a conical bottom, equipped with a nozzle for dust removal, a nozzle for supplying a dusty gas flow to the apparatus, located tangentially to the body, a cover, an exhaust pipe performing the function of removing purified gases. (Handbook of dust and ash collection. / Edited by AA Rusanov. - M: Energiya, 1975). The cyclone works in the following way. The dust-gas flow, getting inside the cyclone through the nozzle installed tangentially to the body, moves spirally downward around the exhaust pipe, ensuring the separation of large dust particles from the gas on the walls of the body. Further, in the lower part of the housing, the flow loses its speed and changes its direction, and solid particles are deposited, and the cleaned gases are removed through the exhaust pipe from the cyclone into the atmosphere.

The disadvantage of this cyclone is the low efficiency of removing solid particles of a fine dispersed phase from the dust and gas flow, which, together with gases, enter the exhaust pipe and further into the atmosphere, thereby polluting the environment.

The closest in technical essence to the claimed solution is a cyclone filter for gas purification (Patent No. 56221, IPC В04С 9/00.

Filter cyclone for gas cleaning / V.D. Katin, R.V. Dolgov, M.Kh. Akhtyamov, A.I. Agoshkov, (RF), application 2006117259/22 declared 05.19.2006, publ. 10.09.2006, bul. No. 25). The cyclone filter for gas purification contains a vertical cylindrical body with a conical bottom equipped with a dust removal connection, a dust-laden gas flow connection located tangentially to the housing, a cover, an exhaust pipe serving as a connection for the purified gas discharge, in the upper part of which additionally a set of filters in the form of grids with different mesh sizes is installed.

The cyclone filter works as follows: the dust-gas flow through the fitting installed tangentially to the body enters the apparatus and moves spirally downward around the exhaust pipe, thereby separating large and medium-sized solid dust particles from the dust and gas flow. In the lower part of the cyclone, the flow loses its speed and changes its direction, as a result of which dust particles of the medium and large dispersed phase are deposited in the conical bottom of the body, equipped with a nozzle for their removal. Further, the cleaned gases from large and medium dust particles move up the exhaust pipe and pass through a set of filters, in which gases are purified from the fine dispersed phase and then released into the atmosphere.

The disadvantage of the known cyclone filter is that filters located in the upper part of the exhaust pipe in the form of meshes with different mesh sizes fail during operation due to their contamination with dust particles, and their dismantling is required to clean the meshes, which leads to a decrease in filter performance -cyclone and a decrease in the efficiency of removing fine particles from the dust and gas flow.

The task of the proposed technical solution is to create such a cyclone filter that would improve the reliability of its operation and ensure the cleaning of the dust and gas flow from dust of large, medium and fine dispersed phases, which increases the environmental efficiency of the cyclone filter operation.

To solve this problem in a known device containing a vertical cylindrical body with a conical bottom, equipped with a nozzle for dust removal, a nozzle for supplying a dusty gas flow located tangentially to the body, a cover, an exhaust pipe that acts as a nozzle for removing purified gas, made in the form a hollow cylinder, inside which filters in the form of meshes with different mesh sizes are installed evenly along the height of the pipe: a mesh is installed in the lower part of the pipe for capturing coarse particles, in the middle of the pipe there is a mesh for capturing medium-dispersed particles and in the upper part of the pipe is a mesh for capturing finely dispersed particles.

The features that distinguish the claimed filter cyclone from the known one, selected as a prototype, is the uniform arrangement of filters along the height of the exhaust pipe in the lower, in the middle and in the upper part. At the same time, in the lower part of the pipe, there is a grid for capturing coarse particles, in the middle part of the pipe - a grid for capturing particles of the medium-dispersed phase and in the upper part of the pipe - a grid for capturing fine particles.

Due to its distinctive features, the proposed cyclone filter provides cleaning of the dust and gas flow from dust particles of small, medium and large dispersed phases. This also increases the reliability of the filter cyclone.

The proposed cyclone filter for cleaning gases is illustrated by the drawing, which shows a vertical section of the cyclone filter. The cyclone filter contains a vertical cylindrical body 1 with a conical bottom 2, equipped with a nozzle 3 for removing dust, an exhaust pipe 4 made in the form of a hollow cylinder, a nozzle 5 for feeding a dusty gas flow into the apparatus, located tangentially to the body 1, a cover 6 and a filter 7 _a , 7 _b and 7 _c in the form of meshes with different mesh sizes, installed inside the exhaust pipe 4 evenly along its height. Moreover, in the lower part of the exhaust pipe 4 there is a grid for capturing coarse dust, in the middle part of the pipe there is a grid 7 _b for capturing particles of the medium-dispersed phase and in the upper part of the pipe there is a grid 7 _c for capturing fine dust particles.

The cyclone filter works as follows. The dust and gas flow through the nozzle 5 enters the body 1 of the filter-cyclone and moves spirally downward around the exhaust pipe 4, while partially separating from the particles of the coarse and medium dispersed phase. In the lower part of the body, the flow loses speed and changes its direction, and in the conical bottom, coarse and medium-dispersed dust particles are deposited, which are removed from the cyclone through the nozzle 3. Partially cleaned gases from particles of medium and large dispersed phases move through the exhaust pipe 4, in which they additionally undergo cleaning in sequentially installed filters 7 _a , 7 _b and 7 _c in the form of nets with different mesh sizes. First, in the filter 7 _a, dust particles of a coarse phase are captured, then in the filter 7 _b medium-dispersed particles are captured and in the upper part of the pipe in the filter 7 _c fine-dispersed dust particles are captured. After passing through additional cleaning, gases are emitted from the cyclone filter into the atmospheric air. At the same time, the degree of gas cleaning from dust increases by 5 ÷ 10% and can reach 90%, which is higher than the design values and this significantly increases the environmental efficiency of filter cyclones.

With a uniform arrangement of filters along the height of the exhaust pipe in the proposed cyclone filter, the reliability of its operation is achieved and increased by reducing the pollution of the filters with dust particles and their wear. Long-term operation of the cyclone filter increases the service life of both the filters installed in the exhaust pipe and the cyclone as a whole due to the absence of the need to replace them during operation, which also increases the reliability of operation, which corresponds to the stated task.

Claims (1)

A cyclone filter for gas purification, comprising a vertical cylindrical body with a conical bottom, equipped with a nozzle for dust removal, a nozzle for supplying a dusty gas flow located tangentially to the case, a cover, an exhaust pipe serving as a nozzle for removing the cleaned gas, while the exhaust pipe is made in the form of a hollow cylinder and is additionally equipped with a set of filters in the form of meshes with different mesh sizes installed inside the exhaust pipe in its upper part, characterized in that the filters are installed evenly along the height of the exhaust pipe and, at the same time, a mesh is installed in its lower part for capturing coarsely dispersed particles, in the middle part of the pipe there is a grid for capturing medium-dispersed particles, and in the upper part of it there is a grid for capturing fine dust particles.

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