RU133525U1 - SEWAGE TREATMENT PLANT AND ACTIVE Sludge - Google Patents

Abstract

Installation for the treatment of wastewater and activated sludge, containing a tank, an aeration chamber and a settling chamber, a pump for supplying activated sludge and clarified effluents, an air duct, a discharge pipeline, characterized in that the installation is equipped with a spiral-screw device with a reversible motor and an unloading chute for unloading silt.

Description

The utility model relates to the field of wastewater and activated sludge treatment and can be used at domestic, industrial and agricultural wastewater treatment plants.

A device for biological wastewater treatment, containing a cylindrical aeration chamber in which a mechanical aerator is placed, and tangential inlet diffusers in communication with an open annular desilter (desilter). In the upper part of the open annular sludge separator (sludge compactor) there is a peripheral drain tray, and in the lower part of the annular sludge scraper for raking sludge into the sump. For the alternate implementation of the biological treatment process, stabilization and compaction of excess activated sludge, a cylindrical partition is used, for lifting and lowering of which a drive in the form of a winch is provided. The installation is equipped with pipelines for the supply of wastewater for treatment or excess activated sludge for stabilization, for the supply of technical oxygen, for the release of carbon dioxide and nitrogen, for the release of treated wastewater or sludge water, for emptying the oksitenka or for the discharge of compacted sludge. When the cylindrical partition is raised, the device acts as an oxytene for biological wastewater treatment. When the septum is lowered, the device is used to stabilize the excess activated sludge and its compaction. The processed excess activated sludge through the pipeline continuously flows from below into the cylindrical aeration chamber, where it is saturated with oxygen using a mechanical aerator (SU 539842 (Ostrovsky I.S., Filin L.B., Puchkov N.A., Sinkin V.A., Skirdov I.V.), 12/25/1976).

A disadvantage of the known utility model is the complexity of the installation, its maintenance and operation.

The closest in technical essence and the achieved result is an installation for processing activated sludge containing a predominantly rectangular-shaped body, in the upper part of which there are inspection hatches that allow access to the installation. Air-lift sludge from the accumulator to the treatment zone is carried out using a pipeline. Between the aeration and sedimentation chambers there is a partition in the form of an L-shaped chipper, which is mounted in the upper part on movable hinges that allow changing the angle of inclination of the partition. The supply of activated sludge to the installation is carried out using a pipeline located in the upper part of the housing, where it enters the sludge accumulator. The airlift is located at the bottom of the accumulation of sludge and has a conical expansion into which a supply of compressed air is supplied to create a vacuum and suction of sludge from the sludge zone through the lower socket also at the base of the conical shape. A heater coil is installed on the mount. The mount, piping and aerator are located in the lower part of the housing, and the aerator is connected to a compressed air pipeline. The heater coil and aerator are installed on fasteners made of a channel. To empty the sludge zone and the aeration zone, there are holes in the lower part of the body that are connected to the pipeline by means of a flange connection in which a valve is installed to regulate the discharge of waste sludge. Branches are made at an angle of 90 degrees. Installation for processing activated sludge is located next to the channel for supplying activated sludge to aeration tanks. Depending on the task, the installation operates in continuous or periodic modes (RU 2004504 (Semenov A.R., Gorshkov V.G., Votyakova M.G., Bokanov V.A.), December 15, 1993).

The disadvantages of the known installation for the treatment of wastewater and activated sludge are complex and inefficient in operation.

The objective of the proposed utility model is to expand the arsenal of wastewater and activated sludge treatment plants and increase the efficiency of their use.

The technical result of the claimed solution is to increase the processing speed of activated sludge, increasing the productivity of the biological treatment process while maintaining a high degree of purification.

The specified technical effect is achieved by the fact that in the installation for the treatment of wastewater and activated sludge containing a tank, an aeration chamber and a settling chamber, a pump for feeding activated sludge and clarified effluents, an air pipe, a drain pipe, according to the claimed utility model, the installation is equipped with a spiral screw a device with a reversible engine and a discharge chute for unloading sludge.

As a result of applying air through the air duct to the aeration chamber, the growth of aerobic bacteria occurs, and thereby the aerobic process, i.e., the process of mineralization of organic substances, is enhanced. Flakes of activated sludge arise, gradually settling to the bottom of the tank, and at regular intervals for several seconds a spiral-screw device with a reversing engine is turned on. Due to the change in the direction of movement of the spiral screw device, the settled sludge flakes are agitated, which, during aeration, is placed in the tank throughout the volume of effluents, which helps to activate the aerobic process and increase the rate of processing of activated sludge. Before draining the treated wastewater, the air supply is stopped, and the resulting flakes settle. After the clarified sewage is discharged through the discharge pipeline, the excess settled sludge is discharged by a spiral-screw device through the discharge chute. This is followed by the next filling of the tank with sewage and supplying air to it through the air duct. The remains of activated sludge are shaken by a spiral-screw device, that is, there is no need for a separate loading of activated sludge. The operation of the wastewater and activated sludge treatment plant occurs without stopping the process and eliminates labor-intensive processes such as cleaning and flushing of the plant, the use of specialized equipment, which increases the productivity of the wastewater and activated sludge treatment plant and reduces operating costs, and also contributes to increase the efficiency of the use of a sewage treatment plant and activated sludge.

The inventive device is illustrated using the drawing. The figure shows the installation for the treatment of wastewater and activated sludge, a sectional view.

The wastewater and activated sludge treatment plant consists of a tank 1 (Fig.), An aeration chamber 2 and a settling chamber 3, a pump for feeding activated sludge and wastewater (not shown in the figure), an air pipe 4, a drain pipe 5, and a spiral screw devices 6 with a reversible motor 7, a discharge chute 8 for unloading sludge. The supply of activated sludge and wastewater takes place through pipeline 9. For a better distribution of activated sludge and wastewater, a distributor 10 is intended. Air is supplied to the aeration chamber by means of an aerator 11.

Installation for the treatment of wastewater and activated sludge works as follows. Wastewater is supplied from livestock and industrial enterprises to pipeline 9. Through the distribution device 10, the wastewater enters the tank 1 and the aeration chamber 2, where the effluent is saturated with oxygen. As a result of this process, the oxidation, absorption, clarification of the runoff occurs when interacting with activated sludge and bacteria that multiply in the aerated medium, that is, an aerobic process takes place with the participation of an oxidizing agent - oxygen with forced air supply through the aerator 11. Next, the wastewater settles and the resulting flakes of activated sludge , gradually settle to the bottom of the tank 1 of the settling chamber 3. At regular intervals for several seconds, a spiral-screw device 6 with a reversing motor 7 is turned on. Nia spiral rotation direction of the screw device 6 occurs agitating sedimented sludge flocs, which during aeration in tank 1 is mixed throughout the volume of the container 1. This promotes aerobic activation process and increase the processing speed of the activated sludge. Before draining the treated wastewater, the air supply through the aerator 11 is stopped, and the resulting flakes settle. After this, the clarified wastewater is drained through the discharge pipe 5, and the excess of settled sludge is discharged by a spiral screw device 6 through the discharge chute 8. Next is the next filling of the tank 1 with sewage through the pipe 9 through the distributor 10 and the air supply through the air duct 4 to the aerator 11. The remains of activated sludge start the process of the installation for the treatment of wastewater and activated sludge. During the operation of the sewage treatment plant and activated sludge, there is no need for a separate loading of activated sludge and the shutdown of the process. In addition, labor-intensive processes such as cleaning and flushing the installation and the use of specialized equipment are excluded, which increases the productivity of the wastewater and activated sludge treatment plant, reduces operating costs and helps to increase the efficiency of the use of the wastewater and activated sludge treatment plant. An experimental installation for the treatment of wastewater and activated sludge during operation has shown high productivity in the treatment of wastewater from livestock and industrial enterprises with minimal maintenance.

Claims (1)

A sewage and activated sludge treatment plant comprising a tank, an aeration chamber and a settling chamber, a pump for feeding activated sludge and clarified wastewater, an air pipe, a discharge pipe, characterized in that the installation is equipped with a spiral screw device with a reversing motor and an unloading chute for unloading silt.

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