RU2019268C1 - Method of gas cleaning and device for its accomplishment - Google Patents

Abstract

FIELD: gas cleaning. SUBSTANCE: method of gas cleaning consists in passage of gas through a rotating sectional filter element and subsequent impulsive recovery of each section, which is accomplished in a closed sealed space, and after the impulse the section is seasoned in this space during a period of not less than the period of soaring of filtered dust. The gas filtering device has a casing with an inlet branch-pipe and bottom pocket for discharge of collected dust. The casing accommodates a rotor carrying sectional filter cartridges and a manifold with a cleaned gas outlet branch-pipe. End face disks and radial partitions are mounted on the rotor. Hinge-joined on both sides of the bottom pocket are curved butterfly valves engageable with the radial partitions within a single step. EFFECT: facilitated procedure. 3 cl, 3 dwg

Description

 The invention relates to the field of gas purification by passing through a fibrous, loose or other filter material and can be used in any industry.

 A known method of filtering gas, including the passage of gas through a bulk filter material and the regeneration of the material by pulse purging of the filter section with a continuous filtration process. The disadvantage of this method is the incomplete cleaning of the filter material due to the constant rotation of the sectional elements and the removal of knocked out dust in the purified gas.

 A device for filtering gas is known, comprising a housing with inlet and outlet nozzles, a rotor with a rotary drive mounted in it, on which filter elements are fixed that are evenly distributed around the circumference, between which radial partitions are mounted, a collector for pulse blowing of the filter elements, and a device for dust unloading in the form of a bottom pocket. The disadvantage of this device is that during the regeneration of the filter section, the removed dust partially enters the zone of the purified gas.

 In the known method of filtering gas through a rotating sectional filter element followed by alternate pulse regeneration of each section, according to the invention, pulse regeneration of the filter element section is carried out in a closed sealed space, and after the pulse the section is kept in this space for a period of at least a period of filtered dust soaring.

 In the known device for gas purification, comprising a housing with inlet and outlet nozzles, a rotor with a rotary drive mounted therein, on which filter elements are fixed, uniformly distributed around the circumference, between which radial partitions are mounted, a collector for pulse purging of the filter elements, and also a device for unloading dust in the form of a bottom pocket, according to the invention, curvilinear rotary dampers are pivotally mounted on the inner surface of the housing on both sides of the bottom pocket Onka, interacting with radial partitions within one step, and equipped with a means of clamping to them, for example in the form of a counterweight. In addition, the rotor rotation drive is equipped with a step-by-step rotation mechanism, for example ratchet, whose movement step is equal to the step of the radial partitions.

 The presence of a sealed space provided by curved flaps raised to the ends of two adjacent radial partitions, and exposure of the regenerated section in this space to complete settling of the knocked out dust can significantly improve the quality of regeneration.

 In FIG. 1 shows the proposed device (end view); in FIG. 2 - the same, a longitudinal section of the proposed device; in FIG. 3 - node I in FIG. 1 (on curved flaps).

 A device for filtering gas consists of a housing 1 with an inlet pipe 2 and a bottom pocket 3 for unloading trapped dust. In the housing 1, a rotor 4 is installed with sectional filtering cartridges 5 located on it and a collector 6 with an outlet pipe 7 of purified gas. End rotors 8 and radial partitions 9 are installed on the rotor 4. On both sides of the bottom pocket 3, curved rotary movable shutters 10 and 11 are pivotally mounted, interacting with radial partitions 9 within one of their steps. The flaps 10 and 11 are balanced in such a way that they interact with the radial partitions with a clamping force. In the collector 6, a nozzle 12 for pulse purging of the regenerated section with compressed air or a blast wave of a gas-air mixture is installed.

 The rotor drive 4 is made, for example, in the form of a hydraulic cylinder and a ratchet mechanism 13.

 The proposed method in the device is implemented as follows. Dusty gas flows through the pipe 2 into the housing 1, passes through the filter cartridges 5 (fibrous, granular or fabric), where it is cleaned of dust and flows through the longitudinal channels of the rotor 4 to the manifold 6, from where it is exhausted through the pipe 7 by a smoke exhauster outside the device.

 In this case, the rotor 4 with the filter cassettes 5 mounted on it rotates in step mode, making a step equal to 360, where n is the number of sections in the rotor.

 After practicing one step through the nozzle 12, the regenerated section is blown with pulses of compressed air, and the space where the regeneration takes place is hermetically closed by the shutters 10 and 11. The regenerated section is maintained in this space for the time necessary for the dust to settle completely, determined by the constant of movement, which is a characteristic of dust . Then the rotor 4 rotates to the next step.

 In the filtering mode are all the cassettes except for the cassette located in the regeneration zone. The collected dust from the bottom pocket 3 is discharged outside the filter.

 The regeneration of the filter material according to the proposed method is more efficient, resulting in increased filtering quality.

Claims (3)

 1. The method of gas purification through a rotating sectional filter element followed by alternate pulse regeneration of each section, characterized in that the regeneration of the filter element section is carried out in a closed sealed space, and after the pulse the section is kept in this space for a period of at least a period of wandering (settling) dust.  2. A device for gas purification, comprising a housing with inlet and outlet nozzles, a rotor with a rotation drive, on which filter elements and radial partitions installed between the elements, a pulse purge collector and a dust discharge device in the form of a bottom pocket are uniformly fixed around the circumference, characterized in that it is equipped with movable shutters fixed on the inner surface on both sides of the pocket and installed with the possibility of interaction of the upper part with partitions.  3. The device according to claim 2, characterized in that the drive is made stepwise, the movement step of which is equal to the distance between adjacent partitions.

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