SU1011179A1 - Method of producing filtering material - Google Patents

Abstract

1. METHOD OF OBTAINING FILTER MATERIAL by applying a layer of cellulose and polyvinylchrods onto the filter septum, so that separate layers of cellulose and polyvinyl chloride are applied successively to the filtration septum in order to increase phthromoltage. . 2. The method according to claim 1, wherein the part of the layer of irrigated chloride in contact with the cellulose consists of particles of a size of 10-0-8 μm, and the outer part of particles of size. rum in OO-20O micron ratio of their thickness 1: 1.

Description

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The invention relates to a method for preparing filter materiap and can be used to purify low concentrations of centered suspensions from mechanical impurities in various industrial fields. A method of obtaining filtering material is known, which consists in applying powdered polyvinyl chloride f1 to the filter fabric. The disadvantage of this method is that the obtained filter material does not allow filtration with sufficient speed and high degree of liquid purification. The closest to the proposed technical essence and the achieved result is a method of obtaining a filtering material, which consists in applying a layer containing 60-95 wt.% EF of powdered polyvinyl chloride and 5-4 O wt.% Of cellulose C2.3 to the filter baffle. filter ruyushey ability of the material. . The goal is achieved according to the method, which implies that a layer of cellulose (fibrous or crystalline) is first put on the filter partition, and then

Table. 1 powdered suspension polyvinyl chloride. In this part of the layer of polyvinyl chloride in contact with cellulose, consists of particles of size 4O-80 microns, and the outer part - of particles of size 80-200 microns with a ratio of their thicknesses 1-2: 1 80 µm to thickness A layer with a particle size of 80-200 µm less than 1 or more than 2 shows a decrease in the filtration rate of the suspension. Example l.Ha the filter septum is first washed with a layer of cellulose in an amount of 0.15 kg per 1 m of the surface of the filter, then a layer of powdered polyvinyl chloride in the amount of 1.35 kg / m. Through the resulting layer, the suspension of brine is filtered, contaminated with iron compounds in the amount of g / l. Filtration is carried out at a constant rate of 1 to 2 hours. After the same amounts of filtrate have been obtained, brine samples are taken for analysis of the iron content. . The data obtained are presented in Table. one.

Example 2 On the filtering interlock {: skirt wash a layer of cellulose in the amount of 0.15 kg per 1 m of surface

filter. First, a layer of polyvinyl chloride in the amount of 1.5 kg per 1 m of surface with an hour size of 310111794 is put on this layer:

particles 4O-8O micron, zhem with size. During the filtration of brine fschir

rum 8O-2OO with the agreement of the crowd n 1.5: 1.

The content of mechanical impurities of iron in the initial brine was s eEU g / l, and the peat from filtering was 0.5 atm.

Thus, the proposed method allows to obtain a filtering material with a high filtration capacity, providing a higher degree of

the south of the process and ograniug sample filter ha for content analysis

gland. At the same time compare mezhaua with

cleaning the brine from iron impurities and a higher rate of its filtration, which determines its economic efficiency. bout rate of filtration with iron co-ercanqui in T filtrate. Obtained data are given in tab. 2. T a b persons a 2

Claims (2)

1. METHOD FOR PRODUCING FILTERING MATERIAL by applying a layer of cellulose and polyvinyl chloride to the filter baffle, characterized in that, in order to increase the filtering ability, separate layers of cellulose and polyvinyl chloride are successively applied to the filter baffle. 2. The method according to π. 1,; It is due to the fact that part of the polyvinyl chloride layer in contact with cellulose consists of particles with a size of 40-80 microns, and the outer part consists of particles with a size of BO — 200 microns with a ratio of their thicknesses of 1 -2: 1.