SU1101264A1 - Settling tank - Google Patents

Abstract

A SEPARANT containing a rotating flocculation chamber, a receiving chamber with a feed tube, scrapers mounted on a driven shaft, and drainage units for the clarified liquid and slit, characterized in that it is equipped with a conical partition in the upper part which windows are made, and the reflective cone and tangential nozzles placed in the lower part of the chamber, the lower part of the receiving chamber is placed coaxially inside the conical partition, installed with the possibility of vertical th movement, the flocculation chamber, the conical baffle and deflector cone are attached to the doctor blade, but The supply tube tangentially connected to the receiving chamber §.

Description

The invention relates to devices for the treatment of wastewater from suspended substances, the drainage of wastewater, and can be applied in ferrous metallurgy, mechanical engineering, the petrochemical industry and other sectors of the national economy.

A sump for water softening is known, which includes a cylindrical body, two cylindrical partitions that divide it into three zones: a central reaction zone and two zones of deposition of coarse and fine slurry 1.

The disadvantage of this construction is that the mixing in the central part of the settling tank is carried out mechanically, i.e. by a stirrer, and also that in the zone of sedimentation formed by cylindrical partitions, there are no conditions for flocculation of the purified water.

The closest to the invention to the technical essence and the achieved result is a settling tank including a rotating flocculation chamber, a receiving chamber with a feed pipe, scrapers fixed on the driven shaft, the drainage units of the clarified liquid and slit 2.

A disadvantage of the known settling tank is that there are no devices in the flocculation chamber that provide conditions for the intensification of the crystallization of poorly soluble salts, and the presence of a recirculation device does not significantly affect the progress of coagulation, which does not allow the hydraulic load to increase high degree of wastewater treatment.

The aim of the invention is to increase the efficiency of the device in operation.

The goal is achieved by the fact that a settling tank containing a rotating flocculation chamber, a receiving chamber with a feed pipe, scrapers mounted on a shaft with a drive, bleached liquid and sludge removal units, is provided with a conical partition, in the upper part of which windows are made, and placed in the bottom parts of the chamber with a reflective cone and tangential nozzles, the lower part of the receiving chamber is placed coaxially inside the conical partition, installed with the possibility of vertical movement with 3TOivf flocculation chamber And, the conical partition and the reflective cone are attached to the scrapers, and the supply pipe is tangentially connected to the receiving chamber. ; FIG. 1 shows the sump, general view; in fig. 2 shows section A-A in FIG. one.

The sump includes a cylindrical-conical housing I, inside of which there is a central flocculation chamber formed by a cylindrical partition. 2 connected to the rotating scrapers 3. The scrapers 3 are driven by a shaft 4 by means of a central drive 5 mounted on

stationary farm 6. The feed pipe 7 is tangentially connected to the receiving chamber 8, the lower part of which is coaxially placed inside the conical partition 9, made with windows 10 in its upper part, and at the bottom - equipped with tangential nozzles 11 that are displaced along otHoge to the existing sludge windows 12 placed at the point of attachment of the partition 9 to the scrapers 3, as well as a reflective cone 13 placed in the lower part of the flocculation chamber and attached to the scrapers. The septum 2 of the flocculation chamber is provided with nozzles 14 in the upper part and sludge windows 15 in the place of fastening of the septum 2 of the flocculation chamber to the scrapers 3. The oil-collecting device 16, which is a semi-submerged cylindrical partition, fitted with an oil collecting tray, is attached to the fixed farm 6. Case 1 is equipped with a collecting tray

0 17 clarified water and located in the peripheral or central part of the device 18 selection of sludge. The lower part of the chamber 8 is lowered below the windows 10. The walls of the chamber 8 and the conical partition 9 form a suction side.

The sump works as follows. The treated water containing suspended substances and reagents through the feed pipe 7 through the chamber 8 enters the chamber bounded by a partition 9. The tangential inlet and the pressure principle of the water supply creates a rotational-downward movement of water, which allows to intensify the process of crystallization of slightly soluble salts and increase degree of flocculent interaction with mechanical impurities.

Water thus pretreated by means of a reflective cone 13 and tangential nozzles 11 from the central part enters the flocculation chamber bounded by a cylindrical partition 2. When leaving the tangential nozzles 11, the water acquires a rotated-upward motion, which, along with the presence of salt crystals removed from The central part intensifies the formation of flocs. Only that suspension is deposited in the flocculation chamber, the critical deposition rate of which is greater than the flow velocity. The sediment is transported by means of a scraper 3, driven by the shaft 4 by means of a central drive 5,

0 installed on a fixed farm 6, through sludge openings 12 and 15 together with a suspension deposited in the settling part, towards the periphery of the housing I and removed by the sludge extraction device 18.

Part of the water containing floccules from

The 5 flocculation chambers through the windows 10 are sucked into the central part of the chamber. The main part of the water through the nozzles 14 enters the settling zone of the housing 1. The surging oil is removed by the oil-collecting device; 16. The clarified water is discharged through the collecting tray 17.

Due to the installation in the proposed settling tank of a conical partition and a reflective cone attached to the scrapers, there is a closed zone, active mixing, in which the crystallisation of poorly soluble salts is intensified and the degree of flocculation interaction with contaminants increases. In addition, water leaks into the centrifugal reactor from the flocculation chamber, carried out using recirculation windows, enhances the pretreatment of waste water due to the presence in it of flocculating aggregated suspension, which maintains stability, the operation of the sump when the load (specific flow rate) increases with constant , a high degree of water purification, which favorably distinguishes the proposed sump from the known one.

Claims (1)

A sump containing a rotating flocculation chamber, a receiving chamber with a supply pipe, scrapers mounted on a drive shaft, drainage units for clarified liquid and sludge, characterized in that, in order to increase the efficiency of the device in operation, it is equipped with a conical partition, in the upper part of which windows are made, and a reflective cone and tangential nozzles are placed in the lower part of the chamber, the lower part of the receiving chamber is placed coaxially inside the conical partition, installed with the possibility of vertical remescheniya, the flocculation chamber, the conical baffle and deflector cone are attached to the doctor blade, but the feed pipe tangentially connected to the receiving chamber.