SU1473802A1 - Water treatment unit - Google Patents

Abstract

The invention relates to devices for the reagent purification of liquids, can be used in the technique of water purification in the chemical, engineering and other sectors of the national economy. The aim of the invention is to increase the plant capacity and reduce the consumption of reagents during the clarification of water on the tubular sump. The installation includes a supply pipe 1, an inlet tray with a weir 2, an inlet part 3, a semi-submersible switchboard 4, a switchgear 5, a pre-cleaning chamber 6 consisting of inclined elements 7 and 8, a mixer 9 with a reagent supply pipe 10, a chamber 11 flocculation supported on the grate 12, overflow device 13, settling basin of tubular elements 14, annulus 18, sedimentary parts 19 and 20, devices 21,22,30 and 32 for removing sediments. Between the tubular elements 14 there is a clarified water chamber 23, inside of which is a mixer 24, dispensers 25 and 26, a quick filter 27 with a cap drainage 28 and a discharge pipe 29. The presence of a pre-cleaning chamber to lighten the uncoagulated suspension and obtain the optimum magnitude by introducing chemical additives into the mixer of the clarified water chamber, it allows to increase the plant capacity and reduce the consumption of reagents for water clarification in the tubular oh sump. 1 il.

Description

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The invention relates to statutes for reagent purification of liquids, can be used in the technique of water purification in the chemical, engineering, and other industries and is an improvement of the invention according to the basic author. St. K 1274721.

The purpose of the invention is to increase the productivity of the plant and reduce the consumption of reagents.

The drawing shows the installation Compact, general view.

The installation consists of supply pipe 1, inlet tray with weir 2, inlet part 3, semi-submersible switchboard 4G of distribution device 5, pre-cleaning chamber 6 consisting of inclined elements 7 and, for cleaning sludge 8, mixer 9 with supply pipeline reagents 10, a float formation gravitational chamber (CWC) 11, which rests in its lower part on a grate 12, which serves both to maintain the charge and to evenly distribute the water being purified, the overflow device 13, the sump, consisting of tubular elements 14 with diameter d, whose axes in the cross section are placed horizontally through 0.75 d and d vertically, each element 14 having an opening 15 for inlet

Zia, whose area is equal to the cross section of element 14, and open end parts 16 and 17, respectively, for the release of clarified water and sediment.

In addition, the installation consists of annular space 18, sedimentary part 19 for sedimentation

from the suspension before it enters the opening 15 of the tubular elements 14, sedimentary part 20 for sediment, slipping from tubular elements 14, devices 21 and 22 for emptying and removing sediment, respectively, from sedimentary parts 19 and 20, located between tubular elements 14 of clarified water chamber 23 , inside of which is a mixer 24 for mixing clarified water with a deodorizing agent introduced by means of a dispenser 25 and introduced through a chemical supply device 26

5 additives, such as flocculants, to optimize the magnitude of the electrokinetic potential of the loading of the filter 27 located under the tubular elements 14 of the cap drainage 28 and the discharge pipe 29. To empty the inlet part 3 of the pre-cleaning chamber 6, the mixer 9 and the flocculation chamber 11, respectively, are pipelines 30-32 .

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The installation works as follows.

The purified water through the pipeline 1 through the inlet tray with weir 2 enters the inlet part 3. To evenly distribute the water over the cross section of the inclined elements 7 of the preliminary cleaning chamber 6, a semi-submersible valve 4 and a distribution device 5 are placed. In the chamber 6, a non-coagulated coarse suspension of allows you to increase the load on the installation and reduce reagent consumption. The partially clarified water in chamber 6 enters the mixer 9, where reagent is fed through the perforated pipeline 10. From the mixer 9 through the grate 12, the mixture enters the gravity chamber 11, where the flocculation takes place, and then through the overflow device 13 the suspension is poured into the tube space 18 and moves with a slope to the holes 15, falling into which, changes direction to the opposite. When moving in the annular space 18, the sedimentation of the suspension onto the downstream tubular elements 14 occurs and the slide

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sediment to the bottom of the sedimentary part 19, followed by drainage through the pipe; 20. In the tubular elements 14, the finest suspension falls out, which slips along the inside of the tubular elements 14 into the sedimentary part 20 and is removed through the pipeline 22. The clarified water after the tubular elements 14 is collected in the chamber 23 and mixed in the mixer 24 with deodorizing the reagent coming from the metering device 25. Chemical additives, for example flocculants, to obtain the optimum value of the electrokinetic potential of the filter loading of the filter 27 are fed to the mixer 24 using the metering device 26. OK Water treatment is carried out at the quick filter 27, from where the clarified water is transported through the cap drainage 28 and through the perforated pipeline 29 to the clean water reservoir. When flushing, the water moves in the opposite direction along the pipeline 29, is evenly distributed by the slit caps drainage 28 over the filter area 27, then through the devices 24 and 23 and is discharged by the pipeline 22. Flushing of the gravity chamber 11 of the converging stage, the mixer 9, the chamber 6 cleaning and the inlet part 3 is carried out by a reverse flow of water with drainage water and sediment, respectively, pipelines 32, 31 and 30.

Using a pre-cleaning chamber with inclined elements to clarify a non-coagulated suspension and to obtain the optimum magnitude of the electrokinetic potential of the filter charge by introducing chemical additives, for example flocculants, using a metering device will improve the performance of the proposed installation and reduce the consumption of reagents for water clarification in a tubular septic tank.

Claims (1)

Invention Formula Installation for the purification of "water auth. No. 1274721, characterized in that, in order to increase plant capacity and reduce reagent consumption, it is equipped with a pre-cleaning chamber with inclined elements between the inlet device and mixer and collecting device for supplying sludge and chemical additives, such as flocculants installed in the clarified water chamber above the mixer. Editor A. Motyl Compiled by T. Ledneva Tehred L. Oliynyk Proofreader E. Lonchakova Order 1822/4 Circulation 600 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5 Subscription