SU683054A1 - Apparatus for regenerating and reloading filtering grained charge in water purifying filters - Google Patents

Description

The invention relates to the treatment of water in water treatment plants of thermal and nuclear power plants for water purification filters with filtering granular loading. A known apparatus for regenerating and reloading a filtering granular charge in water purification filters, comprising a body with a granular load of various particle sizes, lower, middle and upper distribution devices, made in the form of perforated pipes fl. The disadvantage of the known apparatus is that after regenerating the granular load from it it is impossible to overload it into the filter by fractions in any preassigned sequence dictated by the optimal technological process, for example, so that after the hydraulic overload of the grains the load is located in the filter order of decreasing fractions from top to bottom, i.e. in the reverse order of the natural redistribution by specific weight, when small (or light) fractions are located on the top, and large ones - on the bottom. The purpose of the present invention is to increase: the efficiency of water purification due to the distribution of granular load on the size of the fractions during its overload. This goal is achieved by the fact that the holes of the upper distribution device are made with smaller sizes of fines, and the holes of the middle distribution device - with larger sizes of particles of a large fraction, with the average distribution device located above the granular load at a distance determined by the formula i, h I4- Lcr-Lsf c where, p is the distance of the average distribution device from the granular load; H is the working height of the apparatus; height of the granular loading layer, liKp height of the coarse fraction of the loading. This dependence arises from the following: the minimum working height H of the apparatus is the sum of the distances — from the lower distribution device to the average, which is 0 taking into account the expansion

layer when washing with 1,5- | 1 (.d), and from the middle to the upper switchgear i, determined by the need to place the layer (, by the average switchgear without a large fraction overloaded in this case with a height liitp.

In the drawing, a diagram of an installation for the preparation of a filtering load for a working process with the proposed regenerator is given.

It consists of a filter 1 containing a granular filter loading 2, a line 3 for supplying filtered water, a line 4 for discharging treated water, a line 5 for supplying water or gas for loosening during a hydraulic overload, a regenerator 6, containing a body with a granular loading, bottom 7, middle 8, top 9 distribution devices, line 10 for supplying a regeneration solution, line 11 for its withdrawal after mining, line

12 supply and discharge line 13 of the upward flow of liquids or gas, discharge line 14 after removal from the load. The filter and the regenerator are interconnected by lines 15 and 16 of the hydraulic overload from the filter to the regenerator and from the generator to the filter.

When preparing the filtering load to the working process, the filtering load 2 in filter 1 is loosened by supplying water through line 5 and then hydrotransforming the load through line 15 to the regenerator b through the middle switchgear. The regenerator is supplied with water through line 12 with the lines x 10 blocked,

The 13 and 16 loosening flush from the small unsuitable fractions, together with the loosened water, through the middle distributor 8 through line 14 are drained. After that, the reagent is regenerated by line 10 with overlapped lines 12, 13, 14, 16. As the reagent passes through the bed of granular filtering charge, it restores its depleted working capacity and, in the form of a straight line, direct line 11 discharges yy. Then, in the same order as in the spraying washing operation, the load is washed from the residual reagent, and a natural separation of the load into fractions of the smaller one occurs at the top and is coarse at the bottom.

Claims (1)

1. Directory-reference Water treatment equipment, NIIInformt Zhmash, 1974, p. 76, 81, 88 (prototype xn one. -Ah l: large yes ;;. fractions. .f --- Average S-- fraction i i..t. - .. ...--. W.-. ;. Nilka -4ix - 72