SU1414418A1 - Method of regeneration of granular charge of thin-layer filters - Google Patents

Abstract

The invention relates to the filtration of liquids and makes it possible to increase the efficiency of the regeneration of a thin-layer charge. The method includes alternating supply of air into the granular load from the bottom up under a pressure of 0.2-0.4 MPa as a separate impulse with a duration of 5-30 s and water from top to bottom under a pressure of -0.05-0.2 MPa in the amount of 0.7- 1.5 loading volume during one regeneration cycle. This allows multiple pulsating expansion and contraction of the granular load, i.e. periodic disruption of its structure without additional mixing, which leads to a decrease in the content of residual contaminants in the load by 2.5 times. 1 tab. with

Description

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The invention relates to the field of filtration, in particular to methods for the regeneration of thin-layer filter media used for water purification, and can be used in the chemical, mining, metallurgical and other industries, as well as in public utilities.

The purpose of the invention is to increase the efficiency of regeneration of the load.

Example. Filtration is subjected to a suspension of mine water containing coal-rock suspension in the amount of 100-150 mg / l with the following dispersion composition,%: particles up to 5 μm 31; particles 5-10 microns 53; particles greater than 10 µm 16. The suspension is filtered on a 0.2 m diameter thin filter containing layers of a granular load of quartz sand with a particle size of 0.2-0.25 µm 45 mm thick, placed between two grids (cells 120 140 µm), located at a distance of 50 mm from one another. During filtering, water is introduced into the granular charge from top to bottom. Filtering speed 10 ().

 1 filter is transferred to the regeneration mode when the filtration pressure reaches Oj3 MPa. Services of the regeneration process in accordance with known and proposed methods. the following: compressed air pressure 0.3 MPa, air pulse duration 15 s, water pressure 0.15 MPa, the amount of water supplied is equal to the volume of the granular load, the number of water and air supply cycles 8.

According to the known regeneration method, the supply of compressed air and water to the granular loading is carried out from bottom to top, which only leads to a one-time mixing of the granular load when the compressed air is supplied and, therefore, to a single violation of the loading structure.

According to the proposed regeneration method, the compressed air is first supplied from the bottom up, then the water is fed from the top down, and so on. During one cycle of regeneration, this leads first to the expansion and movement of the load up to the upper safety net, and then to compression

and the movement of the granular load down to the lower safety net, i.e. a twofold violation of the loading structure during one cycle. Therefore, during regeneration cycles, the load is moved up or down 16 times, which, compared with the known method, dramatically increases the removal efficiency of the soil from the load.

The results and conditions of the regeneration process according to the known and proposed methods are tabulated.

As can be seen from the table, when using the proposed regeneration method compared to the known, the regeneration efficiency increases, as the relative amount of residual impurities in the granular filter loading decreases by more than 2.5 times. At the same time, the volume of wash water and the duration of the regeneration process do not increase.

The reduction of residual contaminants of the filter loading makes it possible to avoid the formation of mud lumps in it, which leads to an increase in the service life of the filter equipment before replacing the filter loading and ultimately reducing the operating costs of water purification.

The proposed method is the most common for thin-layer filters with a grain size of loading up to 300-500 mm with a degree of expansion of 5-15%. In this case, the mass of the granular load, together with the water present in its pores, is relatively small, which makes it possible to carry out a rapid periodic upward and downward movement with a small expenditure of energy.

Claims (1)

Invention Formula The method of regeneration of granular loading of thin-layer filters, including alternating air supply under pressure of 0.2-0.4 MPa from the bottom up as a separate pulse with a duration of 3-30 seconds and water supply under pressure of 0.05-0.2 MPa in the amount of 0.7 -1.5 loading volumes, in that, in order to increase the efficiency of loading regeneration, the water supply is from top to bottom. Editor V. Petrash Compiled by N.Smirnova Tehred L.Oliynyk Proofreader V.Romanenko Order 3807/5 Circulation 642 VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Subscription