SU1581350A1 - Bag filter - Google Patents

Abstract

This invention relates to a dust collection technique and can be used in the chemical and other industries. Its use will improve productivity and increase the service life of the sleeves. In the bag filter above the upper grate 4, but below the nozzle 2 for the entry of contaminated gas, an additional grate 7 is installed, on which gas-tight nozzles 8 are fixed, with multi-vane swirlers 9 mounted at the inlet to these nozzles, and flexible regenerating elements run into the lower-placed sleeves 6 .1 il.

Description

. The invention relates to dust-cleaning equipment, namely, devices for dry cleaning of gases from dust particles by filtration, and can be used in chemical and other industries.

The purpose of the invention is to increase productivity and increase the service life of the sleeves.

The drawing schematically shows a bag filter, a section.

The filter includes a housing 1, a nozzle for the entry of contaminated gas 2, a nozzle for the outlet of the purified gas 3. Inside the housing 1 are installed sleeve 4 upper and lower 5 gratings. On the bag racks 4 and 5. filter bags 6 with an inner filtering surface are placed. Above the upper sleeve grate 4, but below the nozzle for the input of contaminated gas 2, an additional sleeve grate 7 is mounted on which gas-tight 25 nozzles are fixed 8. In the inlet part of the nozzles 8 there are mounted multi-vane swirlers 9, on the cores 10 of which flexible regenerative elements are fixed. I. To the lower 30 part of the housing 1 is attached a hopper for collecting trapped dust 12, equipped with a feeder 13.

Bag filter works as follows.

The gas contaminated with a pypy through the 5 ^ 5 cuttings 2 enters the upper part of the housing 1, is distributed through the gas tight pipes 8 and twisted by swirlers 3. Under the influence of a swirling dust-gas flow, flexible regenerating elements 11 are thrown to the walls of the pipes 8 and move along their surface and along the surface of the filter sleeves 6. After the exit of the swirling flow from the nozzles 8 there is an intensive interaction and mixing of flows from all the nozzles, as a result of which the twist is rapidly extinguished; Consequently, the untwisted axial gas flow enters the filter bags · 6. Such a flow is characterized by significantly less abrasive effect on the wall of the sleeve 6 than swirling. Gas filtered through the surface | sleeves with the help of nozzle 3 are cleaned out of the housing 1. The regeneration of the sleeves b is carried out during the operation of the filter by moving along the surface of the sleeves b the flexible registers of non-fouling elements 11. The dust separated from the sleeves 6 is picked up by an accompanying gas stream and transported to the booker 12. The dust is removed from the hopper 12 feeder 13.

Due to the presence of an additional sleeve grate with gas-tight nozzles and the fact that the multi-blade swirls are mounted at the entrance to these nozzles, and the flexible regenerative elements 15 are launched into the lower located sleeves, the main disadvantage of the known devices is eliminated - increased wear of the inlet part of the filter sleeves and the resulting low productivity devices. The dust-like flow passes through the swirls and swirls. Under the action of a swirling flow, flexible regenerating elements acquire a rotational movement along the walls of the filter bags, and a swirling dust and gas stream leaves the impermeable nozzles and mixes in the gap between the upper and additional hose grates, losing twist. Consequently, almost unscrewed axial gas flow enters the filter bags, which is characterized by a significantly less abrasive effect on its wall than a swirl (as in the prototype). As a result, increased wear of the inlet part of the sleeve is eliminated and the filter performance increases. Note that the claimed device retains the effect of the regenerating elements (as in the prototype) and at the same time. significantly increases the service life of the sleeve due to the elimination of swirling flow directly in the filter sleeve.

Thus, in the proposed bag filter, due to the presence of an additional bag grate 7 with nozzles 8, in which swirlers 9 are mounted with flexible regenerating elements 11, increased wear of the inlet part of the sleeves is excluded, which increases their service life and 55 filter performance in general due to fewer stops. An increase in the service life of the sleeves also leads to savings in filter material and a decrease in the laboriousness of servicing the bag filter.

Using in industry the proposed filter allows you to increase the service life of the filter bags several times, to provide highly efficient and reliable gas cleaning.

Claims (1)

Claim A bag filter containing a housing with nozzles for the entry of contaminated and outlet of purified gas, filter sleeves fixed on the grates, gas-tight nozzles and multi-vane swirlers with attached flexible regenerating elements installed throughout the length of the sleeves, characterized in that, for the purpose! to increase productivity and increase the service life of the sleeves, the Ιθ filter is equipped with an additional grate installed under the nozzle for gas inlet above the grate, while the gas-tight nozzles are closed the captives on the additional grating are aligned with the sleeves, and the swirlers are placed at the inlet of the gas-tight pipes.