RU32774U1 - Installation for sewage treatment "EKO-M" - Google Patents

Abstract

1. An installation for wastewater treatment, comprising a body with a wastewater supply pipe, a sump and an aerator with a diffuser, characterized in that it is equipped with a riser for pumping out excess biological sludge and an annular weir, which is installed circumferentially inside the sump below the wastewater supply pipe, an aeration chamber is installed inside the body, and the aerator is placed in the aeration chamber and is installed in a guide pipe, which is installed along the body axis and its lower end is located near the bottom of the sump, and the aerator diffuser is located near the lower end of the guide pipe. 2. Installation according to claim 1, characterized in that the housing and the aeration chamber placed in it are cylindrical and installed coaxially.

Description

| D WASTE WATER TREATMENT PLANT “ECO-M The utility model relates to the field of natural and wastewater treatment and can be used to purify domestic or equivalent industrial wastewater from one or more residential facilities remote from existing sewage treatment systems facilities, namely for wastewater treatment of cottages and villages, camp sites and campsites, roadside cafes and hotels, gas stations and small enterprises. Known wastewater treatment plant according to the patent of the Russian Federation No. 2130901, Cl. G 02 F 3/08, 1999 It contains a tank in which a primary sump is placed, an aeration tank with a carrier of attached microflora and aeration systems, a secondary sump, an activated sludge recirculation system, purified water and sludge removal systems, and a self-cleaning grate installed in the upper part of the tank. Moreover, the aeration tank is equipped with at least two movable frames to which the carriers of the attached microflora are fixed, made in the form of parallel curtains made of fabric or film material and to the lower part of which are fixed tension loads. Frames are suspended on ropes, which are connected through blocks with balancing weights made in the form of hollow caps installed in caissons with purified water. In addition, aeronics is divided along the movement of wastewater by partitions into at least two parts. Installation also optional G 02 F 3/02

An ultraviolet radiation source is installed between the secondary sump and the purified water removal system. p ji The main disadvantage of this installation is its very complex design and expensive process used in it for cleaning. A known compact installation for wastewater treatment according to the application of the Russian Federation No. 99104466/12, class. C 02 F 3/02, 2000, adopted by the applicant for the prototype. It contains two isolated coaxially located containers, a two-tier sedimentation tank with a sedimentary trench, a flooded loading bioreactor with an aeration device, a secondary sedimentation tank, and a highly porous filter. A two-tier sump is located in the inner tank, the sedimentary annular chute of which is located in the center of the tank, and a bioreactor with a flooded loading and a secondary sump with a highly porous filter are placed in the outer tank. The flooded loading bioreactor is designed as a recirculation oxidizing channel. A flooded load is located at several points along the length of the bioreactor. At the beginning of the bioreactor, a septum not reaching the bottom is installed. The recirculation and aeration system is made in the form of a submersible pump with an ejector and a semi-ring pipeline with holes. A hole is provided in the conical part of the sedimentary annular trough, and the baffle cone is removable on the rod. However, this installation has a complex and expensive design that does not allow to treat wastewater with a sufficient degree of purification.

The problem is solved in that in the proposed solution, the installation is equipped with a riser for pumping excess biological sludge and an annular spillway, which is installed around the circumference inside the sump below the sewage supply pipe, an aeration chamber is installed inside the housing, and the aerator is placed in the aeration chamber and installed in the guide pipe , which is installed along the axis of the casing and its lower end is placed near the bottom of the sump, and the aerator diffuser is located near the lower end of the guide tube.

In addition, the housing and the aeration chamber placed in it are cylindrical and mounted coaxially.

The drawing shows a General view of the installation in working position.

Installation for wastewater treatment "ECO-M contains a housing 1 with a neck 2 and a cover 3 covering the neck 2. The housing 1 is cylindrical, and in its lower part there is a settler 4 in the form of a cone. Inside the housing 1, a riser 5 is vertically mounted for pumping excess biological sludge. The upper end of the riser 5 is brought out to the neck 2. In the housing 1, coaxially with it, an aeration chamber 6 of a cylindrical shape with a conical lower part and an opening 7 for the exit of the guide pipe 8 is installed. An aerator 9 with a diffuser 10 is placed in the aeration chamber 6 and installed in the guide pipe 8, which is installed along the axis of the housing 1, and its lower end is brought out through the hole 7 and placed near the bottom of the sump 4. A diffuser 10 of the aerator 9 is placed near the lower end of the guide pipe 8. Through the housing 1, on its cylindrical part, into the inside of the aeration to 6 measures omitted sewage supply pipe 11. In the inside circumference of pipe 4 below the settler feed wastewater 11 is an annular weir 12 and withdrawn to the outside. Moreover, along the entire lower surface of the annular spillway 12

slots 13 were made. A compressor 14 was used to supply air to the installation.

Installation for wastewater treatment "ECO-M works as follows.

Wastewater through the sewage supply pipe 11 enters the inside of the installation, namely, into the aeration chamber 6. At the same time, the compressor 14 supplies air to the aerator 9, which through the diffuser 10 enters the inside of the guide pipe 8, where there is a constant and complete mixing of air oxygen from the waste water. This allows various aerobic organisms to multiply, which biologically break down sewage pollution. Thus, in the guide tube 8, a gravity process is observed, which causes the precipitation of previously emerging particles to the bottom of the sump 4, from where they are again pushed by the incoming air flow to the surface through the guide pipe 8. Since fresh wastewater enters the aeration chamber 6, it displaces the biological sludge 15 from the aeration chamber 6 into the sump 4. Biological sludge 15 is deposited on the bottom of the sump 4, from where it again returns to the aeration chamber 6.

The treated wastewater slowly flows through the sump 4, overflowing through the annular spillway 12, entering it through the slots 13, which are made around the entire circumference of the annular spillway 12, flows through the outlet pipe 16 into the external sewage system or into the filter well, or into the trench, or on terrain, maybe for disposal or for reuse.

Thanks to the use of the proposed technical solution, a structurally simple and at the same time reliable in operation, durable installation with a high degree of purification has been created. When using fiberglass to carry out the installation housing, its service life is at least 50 years. and the absence of any moving parts in the design makes it both reliable and durable.

Claims (2)

1. Installation for wastewater treatment, comprising a housing with a sewage supply pipe, a sump and an aerator with a diffuser, characterized in that it is equipped with a riser for pumping excess biological sludge and an annular spillway, which is installed around the circumference inside the sump below the sewage pipe, an aeration chamber is installed inside the casing, and the aerator is placed in the aeration chamber and installed in a guide pipe, which is installed along the axis of the casing and its lower end is placed near the bottom of the sump, and the aerator diffuser - near the lower end of the guide tube. 2. Installation according to claim 1, characterized in that the casing and the aeration chamber placed in it are cylindrical and mounted coaxially.