RU23786U1 - FILTER DEVICE - Google Patents

Abstract

1. A filtration device comprising a housing in which filter material is placed, and a piping system, characterized in that separation devices in the form of baffles equipped with filter caps are installed between the pipelines and the filter material at the bottom of the housing with the ratio of the areas of the “live” section of the caps in the upper part to the "live" section of the caps in the lower part 1.1-3.0: 1.2. The filtering device according to claim 1, characterized in that the filter caps installed in the upper part of the housing have an area of "live" section of the caps 210-308 cm from the surface of the partition. The filtering device according to claim 1, characterized in that the filter caps installed in the lower part of the housing have an area of "live" section of caps 97-140 cm from the surface of the partition. A filtration device according to claims 1 to 3, characterized in that the casing contains ion exchange resin as a filter material. The filtration device according to claims 1 to 3, characterized in that the housing as a filter material contains a mixture of ion exchange resin with an inert material.

Description

FILTERING DEVICE

The utility model relates to filtration plants for the purification of natural and wastewater, as well as other liquid solutions using ion-exchange processes, and can be used in energy, metallurgy, chemical and other industries that use demineralized or softened water in technological processes.

Currently, a large number of filtration units (filters) of various capacities are known, differing from each other by the features of the used filtration material and the specifics of the separated mixtures. These include various nunch and druk filters, filter presses, and so on. (V.D. Lukinov, Yu.A. Emelyanov, Filtration in the chemical industry, Ld, Chemistry, 1982, p. 36-61, A.N. Planovsky, P.I. Nikolaev, Processes and apparatuses of the chemical and petrochemical technology, M., Chemistry, 1972, S. 72-88) ..

Common to all liquid filters is the presence of a housing with devices for supplying the mixture to be cleaned and the filtrate outlet, as well as the filtration material placed in it

A prototype of the claimed technical solution is a device for the most effective method of purifying filtering water through a layer of ion-exchange resins (US Pat. RF No. 2149685, 1999, class C02F 1/42). The installation is a casing with nozzles and upper and lower distribution devices containing ion-exchange resin. In addition to the ion-exchange resin, a layer of inert material (inert) with a density of less than MKl was introduced into the casing. howling 24/04

neck than the density of water in the filters of this tzhsh.

The disadvantage of the installation is the lack of cleaning efficiency due to large losses of resin and inert through the upper switchgear during regeneration by the flow from the bottom to the top when the housing is fully loaded or due to the low efficiency of the filter when it is not fully loaded.

The problem solved by the authors was to modify the filter by equipping it with devices that allow it to hold the filter material (FM) in the housing.

This problem was solved by installing in the upper and lower parts of the housing between pipelines and FM partitions equipped with filter caps that freely pass water and do not allow particles of FM (resin, resin and inert, etc.) with a ratio of the areas of the "live section of the caps (total section of the cracks of all caps ) in the upper part to the “live section of the caps in the lower part 1.1 -3.0: 1.

The use of filtration devices with a large ratio of areas of live section reduces its performance, and devices with a lower ratio of areas of live section leads to increased pressure on the caps and reduces the life of their operation.

It is optimal to use caps with an area of "live section in the upper part of the body 210-308 cm per m of the surface of the partition, and in the lower 97-140 cm on the m of the surface of the partition.

The device is effective both when using ion-exchange resins as a filter material, and especially when using a mixture of ion-exchange resins and inert as a filter material.

A general view of the filtration device is given on where the following notation is introduced:

1-filter housing;

2-layer of ion-exchange sm.p., for example, cation exchange resin;

3-layer inert;

4-upper pipeline;

5-lower pipeline;

6-upper partition;

7-lower partition;

The filter works as follows. In the working cycle, the liquid to be cleaned enters through the pipe 4, passes through the partition 6 and caps 8, which perform the switchgear fusion, then through ipert 3 it enters the resin layer 2, where it is cleaned. After that, water passes through the caps 8, the partition 7 and goes to the consumer through the pipeline 5. The resin 2 is pressed against the partition 7, however, the size of the slots of the caps 8 prevents the entrainment of the resin. During the regeneration of the resin, the liquid flows from the bottom to the top through the pipeline 5, passes through the baffle 7 and caps 8, which perform the function of a dispenser, then through the resin 2 and inert 3, providing the washing of the resin, it passes through the bobbin; 8, the baffle 6 and leaves the filter through pipeline 3. Inert 3 and resin 2 are pressed against the partition 6, however, the size of the slots of the caps 8 prevents the entrainment of inert and resin. Filtration control is carried out through inspection windows 9, loading and unloading of filtration material through loading hatches 10.

The filtration device can work both in the APCOR system and in the AEROCLINE.

As shown by previous experiments, the performance of a modified filler compared with unmodified increases by 25-30% with the complete exclusion of resin and inert losses.

Claims (5)

1. A filtration device comprising a housing in which filter material is placed, and a piping system, characterized in that separation devices in the form of baffles equipped with filter caps are installed between the pipelines and the filter material at the bottom of the housing with the ratio of the areas of the “live” section of the caps in the upper part to the "live" section of the caps in the lower part 1.1-3.0: 1. 2. The filtration device according to claim 1, characterized in that the filter caps installed in the upper part of the casing have an area of "live" section of the caps 210-308 cm ² on m ^{2 of the} surface of the partition. 3. The filtration device according to claim 1, characterized in that the filter caps installed in the lower part of the housing have an area of "live" section of the caps 97-140 cm ² per m ^{2 of the} surface of the partition.  4. The filtration device according to claims 1 to 3, characterized in that the casing contains ion exchange resin as a filter material. 5. The filtering device according to claims 1 to 3, characterized in that the housing as a filter material contains a mixture of ion exchange resin with an inert material.