RU2239607C1 - Installation for biological purification of sewage - Google Patents

Abstract

FIELD: purification of sewage.

SUBSTANCE: the invention presents an installation for household and industrial sewage purification. The offered installation contains: some bodies made in the form of tanks including an equalizing tank with an aerating system; a primary sedimentation tank with a bin for accumulation of sludge equipped with an aerating system; an aeration tank divided by vertical partitions into stages provided with aeration systems and carrying agents of the attached microflora made in the form of the vertical flat screens; a secondary sedimentation tank with a bin for accumulation of sludge; an aerobic stabilizer with an aeration system and a module of bactericidal treatment of the purified water with an ultraviolet radiation. At that the lateral walls of all tanks are made convex, and the equalizing tank in its lower part additionally contains the carrying agents of the attached microflora of the ammonificating kind. In the upper part of the installation there is a launder type variable selector valve of a sewage, and the aeration system of the equalizing tank is connected through a solenoid valve. Besides the secondary settling tank additionally contains a device for its cleaning and prevention of withdrawal of the floatable particles of the sludge sediment including an aeration system, the floating particles collector and their withdrawal pipeline. The installation ensures an increase of stability and efficiency of sewage purification process.

EFFECT: the invention ensures an increase of stability and efficiency of sewage purification.

3 cl, 1 dwg

Description

The invention relates to techniques for wastewater treatment and can be used in biological wastewater treatment plants.

A known installation of biological wastewater treatment, containing a rectangular body in the form of a tank, including a homogenizer, a primary settler, aeration tank, separated by vertical partitions into steps, with carriers of attached microflora made in the form of vertical flat screens, a secondary settler, an activated sludge recirculation system, an aerobic stabilizer and a bactericidal treatment unit for purified water with ultraviolet radiation / 1 /.

The disadvantages of the known installation of biological wastewater treatment are the increased metal consumption, determined by the strength characteristics of the flat side walls of the tanks, and the low stability of the wastewater treatment efficiency caused by fluctuations in the concentration of protein and fat contaminants, as well as the possibility of swelling, floating and removal of silt sediment, delayed in the secondary the sump or in its bunker for any reason more than 2 hours.

The aim of the invention is to reduce the metal consumption and increase the stability of the efficiency of wastewater treatment.

This goal is achieved by the fact that in a biological wastewater treatment plant containing rectangular housings in the form of tanks, including an averager with an aeration system, a primary sedimentation tank with a silt sludge storage tank equipped with an aeration system, an aeration tank divided by vertical partitions into steps equipped with aeration systems and carriers of attached microflora made in the form of vertical flat screens, a secondary settling tank with a silt sediment storage hopper, aerobic stabilization congestion with an aeration system and a block of bactericidal treatment of purified water with ultraviolet radiation, the side walls of all containers are made convex.

This goal is achieved by the fact that in the biological wastewater treatment plant, the averager additionally contains carriers of attached microflora in its lower part, in the upper part an adjustable wastewater flow distributor of the tray type, and the aeration system of the averager is connected through an electromagnetic valve.

This goal is achieved by the fact that in the installation of biological wastewater treatment, the secondary sump additionally contains a device for cleaning it and preventing the removal of pop-up particles of sludge, including an aeration system, a collection of pop-up particles and a pipe for their removal.

The drawing conventionally shows a longitudinal section of a biological wastewater treatment plant.

 The biological wastewater treatment plant contains rectangular housings 1 in the form of containers, including an averager 2 with an aeration system 3, a primary sump 4 with a silo sediment storage hopper 5 equipped with an aeration system 6, an aeration tank 7 divided by vertical partitions into steps equipped with aeration systems 8 and carriers of attached microflora 9, made in the form of vertical flat screens, a secondary settler 10 with a silo sediment storage hopper 11, an aerobic stabilizer 12 with an aeration system 13 and block 14 bactericidal treatment of purified water.

The side walls of all containers are made convex.

The averager 2 additionally contains in its lower part carriers 15 of the attached microflora, in the upper part an adjustable distributor 16 for the discharge of waste water of a tray type, and the aeration system of the averager is connected through an electromagnetic valve 17.

The secondary sump 10 further comprises a device for cleaning it and preventing the removal of pop-up particles of sludge, including an aeration system 18, a collection of 19 pop-up particles and a pipe 20.

In addition, the installation contains pumps 21, 22, 23, 24 and a blower 25.

Installation of biological wastewater treatment works as follows.

Wastewater round-the-clock with different hourly intensities enters the averaging tank 2, from where pump 21, operating around the clock with constant capacity, is fed to the primary sump 4. From the primary sump 4, the wastewater flows by gravity into the aeration tank 7, where it is treated, and then into secondary sump 10, where sludge particles are completely trapped, and purified water passes through the bactericidal treatment unit 14 with ultraviolet radiation and is then diverted for reuse whether in the natural pond.

The delayed sludge particles from the storage hopper 11 of the secondary sump 10 are periodically discharged by the pump 24 into the averager 2.

The implementation of the media 9 of the attached microflora in the form of flat screens installed across the flow along its entire width with a gap relative to the bottom, provides them with additional functions - partitions, partitioning the aeration tank 7 into many steps, which creates ideal conditions for its operation as a displacer, ensuring the presence of a wider range of working microorganisms of attached microflora, which contributes to a deeper course of all biological processes, including nitrification processes and denitrification, which achieves the maximum depth of wastewater treatment.

Maintaining the required concentration of dissolved oxygen in water is carried out through aeration systems 8 from the blower 25.

The sludge retained by the primary settler 4 is collected in the storage hopper 5.

The equipment of the storage hopper 5 with an aeration system 6 ensures the retention of sludge without decay during the working cycle (5-7 days) of the aerobic stabilizer 12 due to the occurrence of biological processes characteristic of biocoagulators.

Once every 5-7 days, the air supply to the aeration system 6 is stopped for five hours, after which the compacted sludge by pump 23 is pumped into the aerobic stabilizer tank 12, where it is aerobically stabilized over the next 5-7 days (complete oxidation of organic components) . Upon completion of the process of stabilization of the sludge sediment, the air supply to the aeration system 13 is stopped for five hours, after which the compacted stabilized sludge precipitate is pumped out by pump 22 to the sludge pads or subsequent drying. After stopping the pump 22, the pump 23 is turned on and the air supply to the aeration system 13 is restored.

The implementation of aerobic stabilization (mineralization) reduces the amount of excess sludge by 2-3 times and eliminates the appearance of odors from it, which generally significantly increases the efficiency of the installation.

In the proposed technical solution, the execution of the side walls of all the tanks of the installation convex significantly increases their strength characteristics, which allows to reduce the thickness of the sheet used and virtually eliminate the use of stiffeners, and this generally significantly reduces the metal consumption of the entire installation.

In the proposed technical solution, capacity 2, in addition to its main functional purpose, is to equalize the flow rate of wastewater entering the installation by equipping it with carriers 15 of the attached microflora of the ammonifying species, at the same time performing the functions of an ammonifier, which ensures the preparation of wastewater for treatment due to preliminary decomposition of proteins and heavy fats to ammonium substances, which are the main food for nitrifying microorganisms, which significantly increases There is stability in the efficiency of wastewater treatment. The presence of an adjustable distributor 16 of the wastewater flow rate supplied by the pump 21 provides the possibility of reliable fixation of the flow rate of the wastewater supplied to the primary settler 4, and recycling of the excess flow rate of wastewater in the averager-ammonifier 2, which ensures intensive mixing of the wastewater of tank 2, which is an indispensable condition for effective the course of ammonification processes. Connecting the aeration system 3 of the tank 2 through the electromagnetic valve 7 provides the possibility of supplying air to the aeration system in a periodic pulsed mode, due to which there is a periodic stirring of wastewater and siltation of the tank 2 is excluded.

In the proposed technical solution, the presence in the storage bunker 11 of a secondary sump 10 of the aeration system 18, a collector of pop-up particles 19 and a pipe 20 for their removal excludes periodic removal of pop-up particles of sludge, which, if it is detained in “dead zones” on the shelves of the secondary sump 10 or in the bunker 11 for more than 2 hours, prone to decay, swells and floats. If necessary, due to the short-term air supply to the aeration system 18, it is possible to agitate and remove accumulated sludge from the “dead zones” in the hopper 11 and the secondary settler 10.

Thus, the proposed technical solutions significantly reduce the metal consumption of the installation and increase the stability of the efficiency of wastewater treatment.

Sources of information

1. RF patent No. 2152907, M. cl. C 02 F 3/00, 3/12, 1999.

Claims (3)

1. Installation of biological wastewater treatment, containing casings in the form of containers, including averager with an aeration system, a primary settler with a silt accumulator equipped with an aeration system, an aeration tank divided by vertical partitions into steps equipped with aeration systems and carriers of attached microflora made in the form of vertical flat screens, a secondary settling tank with a silo sludge storage bin, an aerobic stabilizer with an aeration system and a bactericidal block The treatment of purified water by ultraviolet radiation, characterized in that the side walls of all containers are convex, and the averager additionally contains carriers of an attached microflora of an ammonifying type in its lower part. 2. The biological wastewater treatment plant according to claim 1, characterized in that in the upper part of the plant there is an adjustable wastewater flow distributor of the tray type, and the aeration system of the averager is connected through an electromagnetic valve. 3. The biological wastewater treatment plant according to claim 1, characterized in that the secondary sump further comprises a device for cleaning it and preventing the removal of pop-up particles of sludge, including an aeration system, a collection of pop-up particles and a pipe for their removal.