SU977402A1 - Purification plant unit - Google Patents

Description

(54) CLEARING TREATMENT UNIT

This invention relates to wastewater treatment. Wastewater treatment plants are known which include sequentially arranged primary septic tank, aeration tank, secondary septic tank and contact tank. For the treatment of sludge and excess sludge in the composition of the structures there are methane tanks and sludge plots 1. However, the device of known structures is associated with the need to be removed from agricultural or other industrial use of large areas. A sewage treatment unit is known that includes a reservoir with a Hvkf agrobatic sebum separated into non-transverse partitions; A suitable sewage piping is connected to the central pipe of the primary clarifier, the discharge piping is connected to a contact reserve, into which chlorine water is supplied via a chlorine line. However, the known block provides a complete biological treatment with strictly defined flow and quality of wastewater. At low flow rates and low concentrations in wastewater, contaminants, when the duration of aeration of the sludge mixture in the aeroTen is excessively high, the quality of treated wastewater is degraded due to the sludge self-oxidation, and even disruption of the process is possible; biological treatment as a result of very small loads of organic pollutants on activated sludge. The purpose of the invention is to increase the efficiency of the use of a sewage treatment unit by ensuring complete biological treatment at various flow rates and quality of wastewater. The goal is achieved by the fact that the unit is a clearing of structures, including an aerobic mineralizer reservoir,; diluted with transverse partitions into aeration and settling chambers, primary settling tank with a central tube and erlit to remove sludge, aeration tank, secondary settling tank, contact tank, supply pipe of sewage liquid connected to the central tube of the primary settling tank, chlorine pipeline, discharge pipe, equipped with an additional inlet pipe connected to the aeration chamber of the mineralizer, whose bailing chamber is connected to the central tube of the primary clarifier.

FIG. 1 shows the proposed wastewater treatment unit, plan; in fig. 2 - sewage treatment unit, longitudinal section.

The block consists of a reservoir 1 with transverse partitions 2-5, which distinguish the aerobic mineralizer primary guard 7, aero tank 8, secondary guard 9 and contact tank 10,

In the aerobic mineralizer, the aero tank and the contact tank, air inlet devices are placed, the air distribution channels 11–13, which are crossed by porous plates, respectively (Fig. 1), are fed into the air through air ducts (not shown).

Aerotank 8 is divided into corridors by a partition 14; aerobic mineralizer 6 partition 15 to the aeration chamber 16 and the settling chamber 1

The supply pipe 18 is connected to the central pipe 20 of the settling tank 7 by means of a pipe 19 provided with a valve. In addition, the supply pipe 18 is connected to the aeration chambers 16 of the mineralizer 6 by a pipe 21 blocked by a valve.

To drain the liquid from the settling chamber 17 of the mineralizer 6, there is a pipe 22, which is connected to the collecting tray 23 of the settling tank 7 by a pipe 24 provided with a valve, and to the central pipe 20 of the settling tank 7 by a pipe 25, provided with. gate valve. Pipeline 26 is designed to supply wastewater from the sludge 7 to the aeration tank 8. Pipeline 27 serves to feed sludge into the mineralizer 6 removed from the sump 7 using airlift 28 Pipeline 29 is designed to drain the mineralized sludge and also to supply it for heating at. heat exchanger (not shown); conduit 30 — for returning the heated sludge to the mineralizer. To remove the liquid from the aero tank 8, there is a pipe 31 connected to the central pipe 32 of the sump 9. The fpy pipe 33 is designed to discharge sludge from the sump 9 using an airlift 34. The pipe 35 connected to the pipe 33 serves to feed the sludge into the aero tank 8, pipe 36 - for silt feed to mineralizer

The pipe 37, attached to the collection ,, {1st tray 38, is designed to supply liquid from the sump 9 to the contact tank 10, into which the chlorine line 39 is introduced.

Pipeline 40 serves to remove the purified and disinfected waste fluid.

The sewage treatment unit is operated as follows.

At low flow rates, the cleaning fluid flowing through conduit 18 is fed through conduit 21 to an aerobic mineralizer 6, which operates in extended aeration mode as an aeration tank-settler: in the aeration chamber 16 a mixture of waste liquid and sludge is aerated, in the settling chamber 17 sludge is separated, which is returned to the aeration zone. Excess sludge is removed through line 30.

From the settling chamber 17 of the mineralizer 6, the waste liquid is discharged through conduit 22 and further along conduit 25 it is fed into the central conduit 20 of the settler 7, into which additional clarification of the effluent takes place with sedimentation of fine sludge formed under extended aeration conditions. . The separated sediment is returned via pipeline 27 to the mineralizer 6 via airlift 28, and the clarified wastewater entering collection tray 23 ,. Pipeline 26 is fed to aeration tank 8, in which it is aerated, thus completing purification in the mode of aerated biological ponds.

From the aero tank 8, the waste liquid is supplied via conduit 31 to the central pipe 32 of the settler 9, which serves as the second non-aerated stage of biological ponds.

The treated wastewater, which flows into the collection tray 38 of the settling tank 9, enters through contact pipe 37 into the contact tank 10, where chlorine water is simultaneously introduced through the chlorine line 39. Disinfection is carried out with stirring of the waste liquid by aerating it with compressed air distributed through porous plates that block the air distribution channel 13.

The sediment from the settling tank 9 is removed by means of airlift 34 via conduit 33 and further via conduit 36 to the mineralizer 6.

The treated and disinfected waste liquid is removed from the contact tank 1Q through conduit 40.

At high flow rates, the waste liquid flowing through conduit 18 is supplied via conduit 19

Claims (1)

A treatment plant block containing an aerobic mineralizer separated by a transverse partition into aeration and settling chambers, a primary settling tank with an airlift For removing sediment and a central pipe, an aeration tank, a secondary settling tank, a contact tank, a supply pipe connected to the central pipe of a settling tank, a chlorine pipe and a discharge pipe pipeline, characterized in that, in order to increase the efficiency of use by providing biological treatment of various qualitative and quantitative composition x water, it is provided with a supply additional labor · boprovodom introduced in mineralizer aeration chamber and settling chamber 25 the latter communicates with the central tube of the primary settler.