SU1183152A1 - Filter for cleaning gases - Google Patents

Abstract

1. FILTER FOR CLEANING GASES, comprising a housing with gas inlet and outlet nozzles, filter sleeves open at the top and bottom, and a spout; , in order to improve the processability of the filter, the efficiency of regeneration, reduce the specific energy consumption and operating costs, the regenerating device is equipped with two vertically arranged curvilinear plates, with convexity facing one. towards the other, and a nozzle for supplying compressed air is installed between them in the lower part .. 2. The filter according to claim 1, in which, in order to regulate the velocity of the gas stream in the outlet nozzle, one the curvilinear plate is made with O) the possibility of displacement.

Description

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The invention relates to a technique for purifying gases from solid impurities and can be used in the building materials industry, chemical and other sectors of the national economy.

The purpose of the invention is to improve the processability of the filter, the efficiency of regeneration, the reduction of specific energy consumption and operating costs.

FIG. .1 shows the filter layout; FIG. 2 is a diagram of a regeneration device.

The device includes a housing 1, divided by a vertical partition into two chambers, filtering sleeves 2, hermetically mounted on the upper 3 and lower 4 perforated grids, a plenum collecting hopper 5, a bolt 6, a nipple 7 for discharging dedusted gases, a regeneration device 8, valves 9 with an electromagnetic actuator , collectors 10 and 11, hatches 12 and 13 and flaps 14.

The regeneration device is located in the outlet nozzle and is made of four elements. The two elements 15 are flat and installed in parallel, and the other two elements 16 are curvilinear and are set with a convexity inward, providing a smooth narrowing and subsequent expansion of the flow area, and at least one of the curvilinear elements is made movable, for example, using a hinge 17 and 18 A nozzle 19 is installed coaxially with it in the part of the outlet nozzle 19 for supplying compressed air. The filter works as follows o6pa30N

The dusty gases under the influence of the gas generated by the fan, through the collectors 11, enter the internal cavity of the filter bags 2 open at the top and bottom. The gases pass through the filter material of the nozzles 7, the regeneration devices 8 and the collectors 10 are vented to the atmosphere by the fan, and dust is trapped on the inner surface of the sleeves. As dust settles, resistance to movement increases.

gas is supplied through a filter; therefore, after a certain period of time, the formed layer of dust is automatically removed, and the measured regeneration of the sleeves occurs.

During regeneration, the valve 9 opens, compressed air through the regeneration device nozzle 19 passes between the curvilinear elements 16 in the direction opposite to the movement of gases during filtration, where due to the energy of the jet of compressed air and the restraining bore section of the regeneration device, dust-free gases are ejected and the gas-air mixture is ejected into the wedge the space is the reverse of the blowing and deformation of the sleeves, as a result of which the layer of piercing is destroyed and. showered in the hopper 5.

After a certain time, the electromagnetic valve closes, the compressed air supply is turned off and the chamber is switched to filtration mode, and the next chamber is turned off for regeneration. The captured dust from the hopper is removed through the shutter 6. Installation and monitoring of the state of the sleeves is carried out through hatches 12 and 13. Shutting off the chamber or the entire filter during maintenance is performed by turning the shutters 14 and simultaneously blocking the following: sections of regeneration devices by moving at least one curvilinear element 16. By varying the flow area of the regeneration device, it is possible to regulate the intensity of regeneration of the sleeves.

The proposed method of quantifiable regeneration makes it possible to use fiberglass in the filter, along with light synthetic filter materials, which, due to their exceptional thermochemical stability, are indispensable in a number of productions, but having low resistance to friction and repeated bends cannot be used in element-wise frame filters. pulse regeneration.

Claims (2)

1. FILTER FOR CLEANING GASES, comprising a housing with gas inlet and outlet nozzles, filter bags open at the top and bottom, and a regeneration device with a nozzle for supplying compressed air located in the inlet pipe, characterized in that, in order to improve the processability of the filter Regeneration efficiency, reduction of specific energy consumption and operating costs, the regenerating device is equipped with two vertically arranged curved plates _f , convex one. towards the other, and a nozzle for supplying compressed air is installed between them in the lower part .. 2. The filter according to claim 1, with the exception that in order to control the speed of the gas flow in the outlet pipe, one curved plate is made with the possibility of displacement.