SU787061A1 - Bulky fibrous filter - Google Patents

Description

54) BULK FIBER FIBER

The invention relates to filtration, in particular to a saturated filter intended for the purification of water and process solutions. A volumetric fiber filter is known, comprising a vertical housing with nozzles for supplying the liquid to be cleaned, draining the filtrate, supplying air and water to regenerate the filter charge, a drainage grate on which the fiber filter load is placed, and a device for the filter material loosener made in the form of a vertical but located pipes with aperture rm buried in the filtering load 1. The disadvantage of FIETRA is its low capacity due to the considerable compaction of the filtering media the action of the fluid flow and because of this and nyzka specific productivity. In addition, the regeneration of the filter in connection with an insufficient filter loosener for loads with n: imention of only vertical rippers consumes a large amount of washing: 1H water. The purpose of the invention is to eliminate these disadvantages. The goal is achieved by the fact that the filter is equipped with an additional horizontal loosener placed under the drainage grate and a hydraulic lock with a movable telescopic tube, as well as the fact that the diameter of the holes on the vertical tubes increases as the tube is deepened into the filter loading and the telescopic tube of the hydraulic seal is supplied with a drive for its movement and a level sensor connected electrically to the drive and installed in the filter housing. The drawing shows schematically the filter, a general view. The filter consists of a cylindrical body 1, in which a fibrous filtering load 3 of polyester filaments 3 is located on the honeycomb lattice 2. In the upper third of the column height there is an annular supply manifold 4 with distribution nozzles 5. The filter pan 6 is equipped with a telescopic hydraulic lock 7 with a sliding pipe 8 and a filtrate 9 drain 9 of the filtrate 9 through the filter cover 10 into the body of the sensor 11 lowered through the secondary device 12 and an actuator 13 with a sliding pipe 8 of the telescopic air seal 7, Me; by the filter housing 1 and the tray b there is a distributor 14 of the water-air mixture with patr6ka: mi 15, On the lateral surface of the pallet laid supplying wash water fitting 16 and fitting 17 for susatogo air. Through the filter cover 10, a perforated tube is passed through, in the lower part of the tube 18 (pneumatic ripper). On the lid 10 there is a ventilating nipple 19. Inside the upper section 20 of the filter there is a keHa drainage screen 21 with a frame made of rods in the form of a vertically placed squirrel wheel. On the side wall of the upper section 20 of the filter there are discharging nozzles 22 for washing water.

The filter works as follows.

The initial slurry is fed to the collector 4 and through the distribution

The nozzles 5 enter the filter housing evenly distributed over the entire area of the filter loading 3 consisting of synthetic fibers (e.g. polyester fillets) of arbitrary length, lying in a disordered layer on the honeycomb grid 2. The suspension passes through a layer of fibers where it becomes suspended from suspensions. The filtrate stacks into the pallet 6 through the grate 2 and the nozzles 15 of the water-air distributor 14 and through the hydraulic lock 7 drains out of the filter through the fitting 9. As the sediment accumulates in the filtering load, its hydraulic resistance increases, and to maintain the filter level, the equalizer lowers telescopic tube and increases the level drop. Thus, the minimum possible compression of the filter load is possible for these conditions, which ensures the maximum possible porosity, and hence the capacity and filter capacity.

The end of the filtering and

the transition to the regeneration mode is determined by the extreme lower position of the pipe 8 of the water seal. Before starting the regeneration, the filter is switched off and the filtrate is drained. Through the choke 17 and the central tube 18, compressed air is supplied, loosening the filter charge, and then the flushing water is fed through the choke 16. The air bubbling through the fiber filter charge loosens it, breaks up the sediment absorbed, and the upward current leads out of the filter through the nozzles 22. As the sludge is released, the layer of filaments loosens and rises up. A drainage device protects the flushing water drain pipes from clogging. At the end of the regeneration, the air and water are turned off ..,

The central discharge tube and the movable hydraulic lock ensure the creation and preservation of the optimum state of the filter charge and, as a result, increase the capacity and performance of the filter.

The filter has a grain capacity of 50-60 kg / m® filtering load, which is 30-40 times higher than the capacity of quartz, sand and coal anthracite filters (1.5-1.75 kg / i and 10-12 times higher than gr contact filter capacity (5, O kg / m). At a filtration rate of 5 m / h and a solid content of about 50 mg / l, the quartz filter has a filter cycle duration not exceeding 8-12 hours. Under the same conditions, the proposed filter works 240- 480 hours without regeneration. Wash water consumption for regeneration of the proposed filter is 1% of the volume of the filtered liquid. Spine versus 5-5.5% for known filters

Test filter with a filter area of 1 m2 show its high performance properties. The capacity per filter cycle for 10 days is 1200.

When the initial content of suspensions in the diet is 100-150 mg / l, the content in the filtrate is 5 mg / l.

Claims (3)

1. Volumetric fiber filter containing a vertical housing with nozzles for supplying the cleaned fluid, draining the filtrate, supplying air, and water to regenerate the filter loading, a drainage grating on which the fiber loading filter is placed, and a device for loosening the filter loading, made in the form of a vertical arranged pipes with openings recessed into the filter loading, o tl and h a-; So that, in order to increase the soil capacity, reduce the consumption of wash water and increase the specific filtration performance by improving the regeneration and stabilizing the porosity of the filtering load, the filter is equipped with an additional horizontal ripper located under the drain grate and a hydraulic lock with a movable telescopic tube . 2. The filter according to claim 1, characterized in that the diameter of the holes in the vertical pipes increases as the pipe deepens into the filtering load. 3. The filter according to claim 1, characterized in that it is equipped with a drive for moving a telescopic a tee tube and a level sensor installed in the filter housing and electrically connected to the telescopic tube drive. Sources of information taken into account in the examination 1. Patent SZPA 4036737, cl. 210-196, 07.19.77, //