SU1066626A1 - Settler - Google Patents

Abstract

DRAINER, inclusions housing with flocculation chamber, driven scraper farm, switchgear and flocculant inlet device, characterized in that it is equipped with pressure crystallizers installed in the flocculation chamber to increase the efficiency of water purification and intensify the crystallization of low-soluble salts. made in the form of inverse cones with inlet tangential nozzles connected to the switchgear and outlet nozzles placed tangentially in the upper the second part of the cones, and the input device is set flocculant ng | the level of the outlet nozzles cones.

Description

The invention relates to wastewater treatment equipment for solids, suspended solids, wastewater reduction and can be applied in ferrous metallurgy, mechanical engineering, petrochemical and other branches of the national economy. A septic tank is known, which includes a housing divided by cylindrical partitions into reaction and precipitation chambers for large and shallow veve si P. The disadvantage of this device is that the mixing in the reaction chamber is carried out mechanically, which is closest to the invention by its technical essence and the achieved result. . is a settling tank that includes a housing with a flocculation chamber, a scraper farm with a drive, a switchgear, and a flocculant 2 input device. The disadvantage of this device is the Lack of conditions for the intensification of crystallization of poorly soluble salts, for example, calcium carbonate. The known settling tank does not allow to increase the degree of wastewater treatment while maintaining a high specific hydraulic load. The aim of the invention is to increase the cleaning efficiency and intensify the crystallization of poorly soluble salts. The goal is achieved by the fact that the settling tank, which includes a housing with a flocculation chamber, a driven scraper farm, a switchgear and a flocculating device, is equipped with pressure crystallizers mounted in the flocculation chamber in the form of inverse cones with inlet tangential nozzles connected to the distribution the device, and the discharge pipes placed tangentially in the upper part of the cones, and when inputting the flocculant is installed at the level of the discharge pipes of the cones. FIG. 1 shows the sump, general view; in fig. 2 shows a section A-A in FIG. The settler includes a cylindrical housing 1, inside which there is a central flocculation chamber formed by a cylindrical partition 2 connected to a rotating farm 3, in which the scrapers 4 are attached. The feed central stationary pipe 5 is connected to a distributor b, made in the form of radial pipes. Inside the casing 1 of the sump, pressure molds 7 are installed in the flocculation chamber with tangential discharge pipes 8 located in their upper part. Pressure molds -7 are made in the form of inverse cones. The radial pipes of the distributor b are connected to the supply tangential nozzles of the cones. In addition, the settling tank is equipped with a flocculating supply device 9, the outlet of the feeding nozzles 10 of which is located in the upper part of the flocculation chamber at the level of the discharge nozzles 8. The settling tank works as follows. Water that contains suspended solids and reagents softeners through the supply pipe, through the central pipe 5 and switchgear 6, flows into pressure crystallizers 7. The tangential flow of wastewater and the pressure principle create rotational-forward movement of water which allows to intensify the mixing process and thus leads to the creation of more favorable conditions for the crystallization of slightly soluble salts, while achieving stable The spine of the treated water, which then flows through the tangential nozzles 8 into the flocculation chamber formed by the cylindrical partition 2. When exiting from the outlet nozzles 8, the water acquires a rotational-downward motion, which, along with the presence of salt crystals removed from pressure crystallizers, intensifies floc formation and precipitation process. The arrangement of the device 9 with the flocculant feed nozzle 10 at the level of the outlet nozzles 8 also contributes to the latter, since such its location improves the conditions for moving the flocculus with the treated water, and therefore their interaction. In the flocculation chamber, only that suspension is precipitated, the critical deposition rate of which is greater than the flow velocity. The empty part of the suspension is removed from the flocculation chamber,; is deposited in the remaining volume of body 1 and transported by scrapers 4 of scraper truss 3 along the bottom to the flocculation chamber, from where it is removed in a known manner. The advantage of the proposed settling tank is to install pressure crystallizers in an amount of, for example, 4 pieces in the flocculation chamber, which allows more intensively to conduct water treatment within the flocculation chamber without reducing the settling zone, thereby improving the vad cleaning efficiency.

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Claims (1)

A sump, including a housing with a flocculation chamber, a scraper farm with a drive, a switchgear and a flocculant input device, characterized in that, in order to increase the efficiency of water purification and to intensify the crystallization of sparingly soluble salts, it is equipped with pressure crystallizers installed in the flocculation chamber, made in the form return cones with tangential inlet pipes connected to a switchgear and outlet pipes placed tangentially in the upper part cones, and the flocculant input device is installed at the level of the outlet cones. · to. ITZHI