CS275651B6 - Biological sewage treatment plant - Google Patents

Abstract

Biological wastewater treatment plant works with multiple biorotors (2, 2 ') that they are arranged in one tank (1) below with each other. Above each biorotor (2, 7 ') is the cover (4, 4 ', 4 ") under it is biocontact space is created, continuously supplied with air flowing from below the tank (1) up and indicating thereby rotating the biorotors (2, 2 ').

Description

The invention relates to a biological wastewater treatment plant comprising a tank with at least two biorotors with biodisks.

Biological treatment plants are known based on the principle of biorotors formed by systems of differently divided disks - biodisks - usually made of plastics, which are arranged on a common, driven shaft.

By rotating the biodisks, the adhering wastewater is carried to the air, which creates favorable conditions for the growth of so-called biomass, and thus a relatively efficient treatment of wastewater using microorganisms.

At present, biorotors are always installed so that about half of them are above the level of wastewater in the tank and if they are located below the surface, they do not contain air supply and their efficiency is low.

Further intensification of these treatment plants without increasing especially construction costs brings with it considerable problems.

The aim of the invention is to enable further significant intensification of these biological treatment plants as well as their modernization using existing tanks, with low energy consumption of the operation.

The essence of a biological water treatment plant comprising a tank with at least two biorotors with biodisks arranged below the tank surface according to the invention consists in that the biorotors are arranged below the surface in the tank and above each biorotor an air supply is discharged outside its vertical axial plane, a connecting air supply being connected to the below-arranged biocontact space, which opens below a bioreactor immediately arranged above its vertical axial plane.

An embodiment is preferred in which the connection of the connecting lead to the biocontact space is located in a horizontal plane passing through the central part of the bioreactor.

The advantages of the proposed solution lie in particular in achieving a significant intensification of biological treatment with a relatively small tank volume, in the possibility of applying the invention in the modernization of biological treatment plants and in the low energy intensity of the treatment plant operation.

An exemplary embodiment of a biological treatment plant with three biorotors, according to the invention, is described below on the basis of the attached drawing showing schematically a treatment plant in a vertical section in a plane perpendicular to the axes of the biorotors.

Three biorotors 2, 2 ', 2 ”with shafts 2, 2_> 3” are arranged one above the other in the tank £ above the surface £, which are freely rotatably mounted in bearings (not shown). A cover 2 is arranged above each of these biorotors £, 2, 2. , 4. > which is open downwards and has a roughly downwardly open trough shape. The biorotors .2, £ 2 »2 extend into the housings 2> 4 ', A from below so that the plane passing through the lower edges of the covers 2» 21 »4" lies below the horizontal axial plane of the biorotors £, 2', 2. _ ’

Below the lowest biorotor 2, an air supply 5 opens, but so that the air flow emerging from the air supply does not rise, in the vertical axial plane of the biorotors 2, but outside this plane so as to be able to rotate the biorotor 6. '> /

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Approximately horizontal planes passing through the central parts of the biorotors 2, 2, the covers 4, 4 / are provided with openings to which connecting inlets 6, 6 are connected, the outlets below the biorotors 2 /, Z being arranged above being situated analogously to the outlets of the air inlet e with respect to biorotorú 2.

The described biological treatment plant works as follows:

The air coming out of the inlet £ flows upwards; during its movement it sets in motion the lower biorotor 2 and accumulates under the cover 4, where the water level drops to the level given by said opening to which the connecting inlet 6 is connected, by which the air from the thus formed biocontact space 7 is continuously transferred through the connecting inlet , then the described process is repeated, i.e. the rotational movement of the biorotors 2 'and 2 and the creation of biocontact spaces 7', 7.

The water film carried on the surface of the bio-motors 2, 2 and 2 into the biocontact spaces 2, 2 ', 22, continuously replenished with air, thus makes possible, based on the volume of the tank 6, a significant intensification of biomass production and thus achieving biological wastewater treatment efficiency. without claim to the application of electric drives, including the respective gearboxes for driving the biorotors 6, 2 ', 2.

In order to increase the efficiency of rotation of the biorotors 2, 2 ', 2, their peripheral parts - at least in the region located in the range of air flow emerging from the inlet 6 and connecting inlets 6, 6 / - may be provided with driving protrusions 6, e.g. . ·

The exemplary embodiment of the biological treatment plant described above does not limit the invention in any way, this can be realized in different forms with different number of biorotors and their corresponding biocontact spaces.

Claims (2)

Biological wastewater treatment plant, comprising a tank with at least two biorotors with biodisks arranged below the surface of the tank, characterized in that the biorotors (2, 2, 2) are arranged in the tank (1) one above the other in a common vertical axial plane and above each the cover (4, 4 ', 4) is arranged by the biorotor (2, 2', 2), under which there is a biocontact space (7, 7 ”, 7) and below the lowest biorotor (2) the inlet (5 ) of air, wherein a connecting air supply (6, 6) is connected to the biocontact space (7, 7) arranged below, leading below the biorotor (2 ', 2) arranged immediately above the vertical axial plane. 2. A biological treatment plant according to claim 1, characterized in that the connection of the connecting lead (6, 6 ') to the biocontact space (7, 7', 7) lies in a horizontal plane passing through the central part of the biorotors (2, 2 ').