SU956437A1 - Apparatus for biological afterpurification of effluents - Google Patents

Description

The algoseparator is located between the settler and the biological oxidizer and is connected to the last gravity flow pipeline with a drain funnel located under the Hemisphere of its vertical axis.

The drawing shows the design and the FZntstsionalnaya scheme of the installation for biological waste water purification plants.

The plant for the biological treatment of wastewater is a gravity-free, single-channel main line consisting of a bio-oxidant 1, an algoseyearator; 2 and a septic tank 3.

The wastewater pollution oxidizer 1 consists of two plate partitions, one of which is a hollow hemisphere 4 with a recess 5, funnel-shaped in the vertical axis of Symmetry, and the second bulkhead is a round container - € 6 with 7 sides and sloped walls 8, having a central water discharge recess 9 in the center of the vertical axis of symmetry. The walls 8 of the second partition wall - the tank 6 have a drainage surface directed from the periphery to the center.

The implementation of the disc partition in the form of a hollow hemisphere increases (the surface of the water flow and the contact of the treated water with the air medium and thus improves the process of aeration of water, while also achieving a better light regime for intensifying the growth of planktonic algae.

The hemisphere 4 by means of the supports 10 is placed with a gap in the reservoir 6, which in this case is also a catchment basin.

The hemisphere 4 is preferably made of an optically transparent material. Sources 11 of the artificial light are located under the arch of this hemisphere. In the catchment basin: e 6 above the recess 9 in the center of the vertical axis of symmetry there is a drainpipe 12, communicated by means of a pipeline with a valve 13 with an algo separator 2.

The oxidizer is equipped with a water supply pump 1.4, the suction nozzle of which is connected by means of a valve 15 to the main water supply pipeline for cleaning, and a valve 16 with a recess 9. The discharge nozzle of a pump 14 is connected by means of a pipeline to a valve 17 with a recess 5 of the hemisphere 4.

Algoseparator 2 with pipeline 18 is in communication with sump 3. Biomass of algae and pulp is discharged from algoseparator 2 through pipeline with valve 19, and purified water from sump 3 through drainpipe 20 through water supply with valve 21. Drainage from sump 3 is carried out through pipeline with valve 22.

The location of the algo-separator 2 between the dispenser 1 and the settling tank 3 provides improved water purification by first removing algae biomass followed by clarifying the purified water.

The setup for the biological treatment of wastewater works as follows.

Through the main pipeline through the open valve 15, the pump 14 sewage of the water. From this

The waste water flows in a uniform flow along the surface of the hollow hemisphere 4 and is collected in tank 6. As the level in reservoir 6 increases, which should not exceed the lower

the edges of the hemisphere 4, shut off the valve 15 and open the valve 17, thus creating a closed circulation of the treated water in the biological oxidation section. Then source 11 is put into operation and algae inoculum is injected into the circulating water. The biomass of planktonic algae develops under the influence of natural light illuminating the surface of hemisphere 4, and under the influence of artificial light illuminating the surface of water with cultured algae mI in reservoir 6.

As a certain amount of algae biomass is reached in compasses

By directing water to the biological oxidation section, the valve 16 is covered and the valve 15 is opened to supply water for cleaning.

As the level of water in the tank 6 rises, the waste water containing the algae suspension is discharged into the funnel 12 and through the open fan 13 into the algo-separator 2. In this case, the water flow is controlled by the valve 15, and its circulation rate is controlled by the pump 14 and

the opening of valves 9 and 17, taking into account the growth rate of planktonic algae and the increase in their biomass.

Algae selected biomass in algoseparator 2 is discharged through the pipeline through the open valve 19, and clarified water is discharged from the algoseparator 2 through the pipeline through the open valve 18 to the sump 3.

The design of the algoseparator 2 of the proposed installation is the same as that of the known installation, and known sedimentation tanks can be used as the settling tank 3.

Purified algae biomass water in algoseparator 2 undergoes further clarification from suspensions and mechanical impurities, which settle on the bottom of the settler and are further removed through the pipeline through the open valve

Claims (1)

22, and very good: seeked water flows by gravity into the trays 20 and further along the pipeline through the open valve 21 into the natural reservoir. The proposed plant for the biological treatment of wastewater is simple in design, reliable and not laborious to operate. It is intended for very hot water at a speed of 1.5-2.0 thousand, m / day. In addition, it ensures the effective removal of nutrients of organic substances and mechanical impurities from the treated water. The simplicity of the design and reliability in ecological exploitation make it possible to use such an installation also in laboratory conditions — to develop technological oro-processes and to determine the possibility of additional purification of wastewater by means of planktonic algae. The invention The installation for the biological treatment of waste water, consisting of a biological oxidant containing disk plates one above the other, 25 5 10 15 20 a settling tank and algoseparator, as well as pumps and pipelines, in order to increase the efficiency of use by improving the quality of water treatment and increasing the reliability of its work, the upper partitioned partition wall is made in the form of a hemisphere with a funnel-shaped recess in its upper part, communicated with the pressure pipe n Asos, and the bottom plate of the partition is equipped with a central drainpipe connected to the suction pipe of the pump, while the algo-separator is installed between the settling tank and the biological oxidizer and communicated with the last pipe equipped with a funnel placed under the hemisphere along its vertical o The source of information taken into account for the examination: 1. USSR Author's Certificate for Application No. 2987769/26, cl. C 02 F 3/32, 01.10.80,