RU2094395C1 - Installation for treating waste water - Google Patents

Abstract

FIELD: waste water treatment. SUBSTANCE: installation has mechanized grate, rectangular casing in the form of holder including primary settler, air tank with carrier of immobilized flora, secondary settler, activated sludge recycle system with outlet pipeline, treated water and sludge sediment withdrawal systems. Carrier of immobilized flora is constructed in the form of parallel blinds of fabric or film material fastened at their upper part to frame whereas their lower part bear fastened fixing straining loadings. On the frame, there is delivering reservoir with siphon drain installed to which outlet pipeline of activated sludge recycle system is attached. EFFECT: improved purification degree. 5 cl, 2 dwg

Description

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

A known installation of wastewater treatment, containing a rectangular casing comprising an activated sludge regenerator, aeration tank with free-floating microflora, a secondary sump, an activated sludge return system and an aeration system for supplying compressed air to the aeration tank [1]
The disadvantages of the known installation of wastewater treatment are significant operating costs, insufficient reliability and cleaning efficiency.

A known installation of wastewater treatment, containing a tank with biofilters installed in it from disks mounted on horizontal shafts with electric rotation drives [2]
The disadvantages of the known installation of wastewater treatment are quite significant operating costs (on the drive biodisk), limited by rotating nodes, reliable operation and high cost.

 The aim of the invention is to increase the efficiency and reliability of the installation while simplifying and cheapening its design.

 This goal is achieved by the fact that in a wastewater treatment plant containing a mechanized grate, a rectangular casing in the form of a tank including a primary sump, aeration tank with a carrier of attached microflora and a secondary sump, an activated sludge recirculation system with an outlet pipe, a system for removing purified water and sludge , the carrier of the attached microflora is made in the form of parallel curtains of fabric or film material, fixed in the upper part to the frame, and to the lower part of which are fixed ixing stretch weights, a dosing tank with a siphon drain is installed on the curtain frame, to which the outlet pipe of the activated sludge recirculation system is connected, in addition, the entire frame structure is suspended on cables that balance the frame structure through the weights in such a way that when filled the dosing tank, the frame structure is in its lower position, and when not fully filled in the upper position.

 This goal is achieved by the fact that in the wastewater treatment plant, the drive of the mechanized grid is made from a frame for curtains.

 This goal is achieved by the fact that in the wastewater treatment plant, the scrapers of the sludge removal system are driven from the curtain frame.

 This goal is achieved by the fact that in the wastewater treatment plant, the frame structure with curtains and the dosing tank is balanced in the same way with floats placed in the tank of the aeration tank.

 This goal is achieved by the fact that in the wastewater treatment plant between the secondary sump and the purified water removal system, a source of ultraviolet radiation is installed.

In FIG. 1 shows a longitudinal section of a sewage treatment plant with raised curtains;
in FIG. 2 is a longitudinal section through a wastewater treatment plant with curtains lowered into a container of treated water.

 The wastewater treatment plant contains a mechanized grate 1, a rectangular casing in the form of a tank including a primary sump 2, aeration tank 3 with a carrier 4 of attached microflora, a secondary sump 5, an activated sludge recirculation system 6 with an outlet pipe 7, a purified water removal system 8, consisting of the storage tank 9 and the pumping pump 10, and the sludge removal system 11, including scrapers 12 and the pump 13.

 The carrier 4 of the attached microflora is made in the form of parallel curtains 14 of fabric or film material fixed in the upper part to the frame 15. The fixing tension weights 16 are fixed to the lower part of the curtains 16. A metering container 17 with a siphon drain 18 is installed on the frame 15 for the curtains 14, to which the outlet pipe 7 of the activated sludge recirculation system 6 is connected. The entire frame structure (4, 14, 15, 16, 17) is suspended on cables 19, which through the blocks 20 with the help of weights 21 balance the frame structure in such a way that when the metering tank 17 is full, the frame structure is in its lower position, but not completely filled up.

 The drive 22 of the mechanized grid 1 is made from the frame 15 for the curtains 14. The drive 23 of the scrapers 12 of the sludge removal system 11 is made from the frame 15 for the curtains 14.

 The frame structure with curtains 14 and the dosing tank 17 is balanced in the same way using floats (not shown), placed in the tank of the aeration tank 3.

 An ultraviolet radiation source 24 is installed between the secondary sump 5 and the purified water removal system 8.

 Installation of wastewater treatment works as follows.

 Wastewater through a mechanized grill 1 enters the primary sump 2, where sand and other solid inclusions are deposited, and then enter the tank of the aeration tank 3. After biological treatment from the aeration tank 3, water flows into the secondary sump 5, where sludge is deposited from the stream, and the purified water enters the system 8 and then pump 10 is discharged into the reservoir or for reuse.

 In aeration tank 3, biological water treatment is carried out attached to the curtains 14 microflora. Biomass is transferred to the film when the curtains 14 are immersed in the tank of the aerotank, and microflora in the oxygen film is consumed when the curtains 14 are raised to the upper position. In addition, when the curtains 14 are immersed, the water volume of the aeration tank 3 is simultaneously saturated with oxygen, which ensures the flow of cleaning processes in the volume of water.

 The mechanism of periodic immersion of the curtains 14 in the water bath of the aeration tank 3 is as follows.

 In the initial position, the dosing tank 17 is empty and under the influence of weights 21 the entire carrier structure of the attached microflora 4 is moved to its upper position. During continuous operation of the activated sludge recirculation system 6, wastewater is supplied through the outlet pipe to the dosing tank 17. When it is filled by 90 95% (for example), the weight of the microflora carrier structure 4 becomes greater than the total weight of the cargo 21 and the structure 4 moves to its lower position, immersing curtains 14 into the tank of the aeration tank 3. After the curtains 14 are immersed in the tank, the level of wastewater in the metering tank 17 exceeds the upper point of the siphon drain 18 and through it sewage with activated sludge enters the tank a at a high speed 3. Capacity Rotenko 17 is emptied and weights 21 are removed from the water curtains 14 volume.

 When moving the frame 15 from the upper position to the lower and vice versa, with the help of the drive 22, large inclusions coming from the wastewater are removed from the grate 1 into the container (not shown).

 Similarly, when the frame 15 moves, using the drive 23, the scrapers 12 are moved, which remove the sludge sediment deposited on the bottom of the aeration tank 3 into the hopper 5, from where it, together with the sediment from the primary sedimentation tank 2, is removed by means of a pump 13 for disposal (processing, storage burial, use).

 The whole structure 4 can be balanced in a similar way (instead of cables, blocks and weights) using floats placed in the water tank of the aeration tank 3 or independent containers (not shown in the drawings, due to the simplicity of presentation).

 At the outlet of the secondary sump 5 into the storage tank 9, the purified water is treated with ultraviolet radiation, which destroys the pathogenic flora.

 Thus, the proposed technical solutions increase the efficiency and reliability of the wastewater treatment plant while reducing its cost and operating costs by placing a larger surface microflora attached to cheaper material in a unit of the plant’s working volume.

Claims (5)

 1. Installation of wastewater treatment, containing a mechanized grate, a rectangular casing in the form of a tank including a primary sump, aeration tank with a carrier of attached microflora, a secondary sump, an activated sludge recirculation system with an outlet pipe, a system for removing purified water and sludge, characterized in that the carrier of the attached microflora is made in the form of parallel curtains of fabric or film material, fixed in the upper part to the frame, and the fixing tensioners are fixed to the lower part of it e cargo, a dosing tank with a siphon drain is installed on the curtain frame, to which the outlet pipe of the activated sludge recirculation system is connected, the entire frame structure is suspended on cables, which through the blocks balance the frame structure using weights so that when the dosing tank is full, the frame structure is in its lower position, and when not fully filled in the upper position.  2. Installation according to claim 1, characterized in that the mechanized grid drive is made from a frame for curtains.  3. Installation according to claim 1, characterized in that the scraper drive of the sludge removal system is made from the curtain frame.  4. Installation according to paragraphs. 1 to 3, characterized in that the frame structure with curtains and a dosing tank is balanced in the same way using floats placed in the tank of the aeration tank.  5. Installation according to claim 1, characterized in that a source of ultraviolet radiation is installed between the secondary sump and the purified water removal system.

Images