RU21911U1 - FILTER INSTALLATION - Google Patents

Description

FILTER INSTALLATION

The 11 useful model relates to installations for the purification of natural and wastewater, as well as other liquid solutions using filtration 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 plants 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 filter filters, filter presses, etc. (V.D. Luknnev, TO.L. Emelyanov, Filtration in the chemical industry, JI-d, Chemistry, 1982, p. 36-61, RF Patent No. 2058817, 1995, class C02P 1/42).

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 filtering suspensions in a continuous mode, which is a casing with nozzles containing a filter baffle, in particular, filter material and devices for fixing it in the casing. (L.P. Planovsky, P.I. Nikolaev, Processes and Apparatuses of Chemical and Petrochemical Technology, M, Chemistry, 1972. p. 72-88)

MK.S02P 1/42

The disadvantage of the installation is the lack of efficiency in the separation associated with the clogging of the filter material with impurities. The problem solved by the author was to improve the filtration system by dividing the process into “coarse (preliminary) and“ thin (final) filtration.

This problem was solved by placing in the casing a filter material consisting of at least two types of sorbent, the upper of which has the lowest density and surface area. In an optimal embodiment, its density is less than the density of the filtered fluid

The general installation diagram is shown in FIG. 1-2, where 1 is shown; 2 upper switchgear (ASU);

3-layer sorbent with a higher density and surface area;

4-layer sorbent with a lower density and surface area;

5-lower switchgear (PRU):

6 nozzles.

13, activated charcoal, zeolites, kieselguhr, resins, etc. can be used as sorbent 3, as pet sorbent 4, coarse fractions of coal, resin, polypropylene, etc. materials.

The specific material choice for both layers is determined by the nature of the liquid being cleaned, as well as the nature of the material of the second layer. The number of layers with different sorbents is almost unlimited.

The experiments carried out on a typical chemical water treatment plant with an average productivity of 150 cubic meters. m per hour and a filter cycle volume of 12,000 cubic meters, when replacing a previously used sorbent, the claimed modified one showed the possibility of achieving an increased filirocycle without compromising the quality of treated water. In particular, the linear filtration rate can be increased by 10-15%, sorbent life by 5-8%. . 2. FORMULA OF A USEFUL MODEL. A filtration unit comprising a housing with nozzles in which a sorbent is placed, characterized in that the sorbent consists of at least two layers, the top of which is characterized by a minimum charge and a minimum surface area. The filtration unit according to claim 1, characterized in that the density of the upper layer is lower than the density of the filtered fluid.

Purified water

Water Reagents

Claims (2)

1. A filtration unit comprising a housing with nozzles in which a sorbent is placed, characterized in that the sorbent consists of at least two layers, the upper of which is characterized by a minimum density and a minimum surface area. 2. The filtration unit according to claim 1, characterized in that the density of the upper layer is lower than the density of the filtered fluid.