RU166598U1 - SEWAGE TREATMENT PLANT - Google Patents

Abstract

1. Installation for wastewater treatment, comprising a tank with a settling tank and a filter with a floating charge, a grid rigidly connected to the wall of the settling tank, fixing the upper boundary of the load, means for supplying initial wastewater to the entrance of the settler, a device for collecting and discharging purified water located in the upper part of the sump, a device for removing sludge and a device for the continuous removal of dirty wash water, placed under the filter with a floating charge and containing a suction pipe connected with a submersible pump, which is connected to the pressure pipe, characterized in that it contains a Central pipe with a reflective shield, in which there is a pressure pipe connected to the shaft of an electric motor located above the Central pipe, an annular tank mounted in the upper part of the Central pipe, a floating-load filter occupies the entire upper part of the sump between the tank wall, the central pipe and the mesh, and the submersible pump is located under the reflective shield of the central pipe. 2. Installation according to claim 1, characterized in that the device for collecting and discharging purified water contains radial trays connected to the annular tray and having a slope in its side, and the annular tray has a slope towards the common outlet tray and is connected to it.

Description

The utility model relates to the field of wastewater treatment and purification from suspended solids, biofilm and activated sludge after biological treatment with or without treatment with reagents, mainly used in the treatment and purification of domestic and industrial wastewater.

A known installation for wastewater treatment of a vertical type, designed for sedimentation of wastewater (Water supply and sanitation in the railway transport: Textbook / Ed. By Prof. BC Dikarevsky. - 2nd ed. Revised. - M .: GOU "Training Center on education in railway transport ”, 2009, p. 347), comprising a cylindrical body with a conical bottom for settling particles, a feed tray, and a central pipe with a reflective shield, a catchment and discharge chutes, a pipeline for removing sediment.

This wastewater treatment plant has a low cleaning effect, especially during unsteady operation, since it does not provide for the retention of small particles with deposition rates less than the upstream velocity in the settling zone, and the location of the drainage channel only along the periphery of the settler leads to uneven distribution of the ascending flow. These features do not allow you to save the specified cleaning effect while increasing the performance of the installation.

Closest to the claimed technical solution is a wastewater treatment plant (RU No. 68498, C02F 3/06, 11/27/2007) containing a tank with a settling tank and a filter with a floating charge located in the end part of the settler, separated from the rest settling tank with two vertical cylindrical shells, means for supplying initial wastewater to the entrance of the settling tank, a device for collecting and discharging purified water located in the upper part of the settling tank, a device for removing sludge, a device for continuously on the removal of dirty wash water, which is located under the filter with a floating charge, grids rigidly connected to the wall of the sump and a device for collecting and discharging purified water, the first mesh installed above the filter with a floating load, and the second mesh installed below the filter with a floating load, and vertical cylindrical shells are placed in the tank with an annular gap between them. A device for continuously discharging dirty wash water comprises a suction pipe with perforation on the upper surface connected to a submersible pump, which is connected to a pressure pipe.

The disadvantage of installing this design is the location of the floating filter in the end part of the sump, which does not provide the desired cleaning effect, since in this case the use of the entire filter area for post-treatment of wastewater by filtration is excluded. The impossibility of increasing the cleaning efficiency is also facilitated by the fact that one catchment ring tray does not provide an even hydraulic load of the filter layer. Moreover, the non-uniformity of the load distribution will increase with increasing filter area, which leads to a corresponding increase in filtration rates in the loaded zones, a breakthrough of pollution and a decrease in the quality of cleaning, especially with an increase in the filter area. The presence of a mesh below the floating filter layer is an additional resistance that reduces the efficiency of washing the load. In addition, the flow rate of dirty wash water discharged into the feed water stream at the inlet of the installation increases the total flow rate to be processed, the speeds in the settling part and the filter load. The pump and pressure pipe of the continuous flushing system move directly to the settling zone, which negatively affects the settling process. With an increase in the amount of wastewater entering the installation, these same design features do not allow to maintain the desired treatment effect within the specified limits.

The objective of the utility model is to increase the efficiency of wastewater treatment, increase productivity while maintaining the purification effect.

The technical result is achieved by the fact that the wastewater treatment plant, comprising a tank with a settling tank and a floating filter in it, a grid rigidly connected to the settling wall, fixing the upper loading boundary, means for supplying the initial wastewater to the entrance of the settler, a device for collecting and drainage of purified water, located in the upper part of the sump, a device for removing sludge and a device for the continuous removal of dirty wash water, placed under a filter with a floating load and containing a suction pipe connected to a submersible pump, which is connected to a pressure pipe, further comprises a Central pipe with a baffle plate, in which there is a pressure pipe connected to the shaft of an electric motor located above the Central pipe, an annular tank mounted in the upper part of the Central pipe, This floating filter occupies the entire upper part of the sump between the tank wall, the central pipe and the mesh, and the submersible pump is located under the reflective shield volume of the central pipe.

A device for collecting and discharging purified water contains radial trays connected to the annular tray and having a slope in its side, and the annular tray has a slope towards the common outlet tray and is connected to it.

The essence of the utility model is illustrated by drawings, where in FIG. 1 shows a section of the proposed installation for wastewater treatment, and in FIG. 2 shows the installation plan.

The wastewater treatment plant comprises a tank 1 with a settling tank and a floating filter 2 in it, a mesh 3 rigidly connected to the settling wall and fixing the upper loading boundary, means for supplying the initial wastewater to the entrance of the settler 4, a central pipe 5 and a reflective shield 6 , a device for collecting and discharging purified water, consisting of radial trays 7, an annular tray 8, a common discharge tray 9, a device for removing sludge 10, a device for continuously discharging dirty wash water, under the filter with a floating load and containing a suction pipe 11 connected to a submersible pump 12 located under the reflective shield 6 and connected through a pressure pipe 13 located in the central pipe 5, with an electric motor shaft 14 that rotates the dirty wash water removal system, an annular tank 15 for receiving wash water, a pipe 16 for draining the wash water outside the installation.

The wastewater treatment plant operates as follows: the wastewater to be treated is fed into the center of the unit through the tray 4 and into the central pipe 5, moving down to the reflector shield 6. Coarse particulate matter settles in the vertical movement of the wastewater upward from the exit from the central pipe 5 at the reflection board 6 to the surface of the filter with a floating charge 2. Next, the wastewater passes through the floating load of the filter 2, where they are refined from fine particles. The treated wastewater in the upper part of the tank is collected by a device for collecting and discharging purified water, including radial trays 7, an annular tray 8 and a common discharge chute 9. Contaminants delayed during settling accumulate in the sedimentary part of the tank 1, from where they are removed by the sediment removal device 10 Flushing the filter 2 is carried out when moving the device for the continuous removal of dirty wash water 11, rotating together with the pump 12 and the pressure pipe 13 using an electric motor 14. Dirty flushing water s 12 through the pump along the pressure conduit 13 are fed into the annular tank 15 whence by pipe 16 comes outside the installation.

Improving the efficiency of cleaning and productivity of the installation for wastewater treatment, compared with the prototype, is achieved due to the fact that the floating filter load occupies the entire upper part of the sump, the collection of treated wastewater is carried out not only by the annular chute, but also by radial catchment chutes, providing a more uniform hydraulic load of the filter layer. The location of the pressure pipe of the flushing system in the central pipe, and the submersible pump below the baffle plate of the central pipe, i.e. outside the settling zone, it allows to improve the process of sedimentation.

Claims (2)

1. Installation for wastewater treatment, comprising a tank with a settling tank and a filter with a floating charge, a grid rigidly connected to the wall of the settling tank, fixing the upper boundary of the load, means for supplying initial wastewater to the entrance of the settler, a device for collecting and discharging purified water located in the upper part of the sump, a device for removing sludge and a device for the continuous removal of dirty wash water, placed under the filter with a floating charge and containing a suction pipe connected with a submersible pump, which is connected to the pressure pipe, characterized in that it contains a Central pipe with a reflective shield, in which there is a pressure pipe connected to the shaft of an electric motor located above the Central pipe, an annular tank mounted in the upper part of the Central pipe, a floating-load filter occupies the entire upper part of the sump between the tank wall, the central pipe and the mesh, and the submersible pump is located under the reflective shield of the central pipe. 2. Installation according to claim 1, characterized in that the device for collecting and discharging purified water contains radial trays connected to the annular tray and having a slope in its side, and the annular tray has a slope towards the common outlet tray and is connected to it.

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