RU47880U1 - SEWAGE TREATMENT PLANT - Google Patents

Abstract

The utility model relates to devices for wastewater treatment and can be used in public utilities for the treatment of urban and similar industrial wastewater composition close to them. The utility model makes it possible to reconstruct secondary horizontal settling tanks into a combined construction to ensure stable and more effective sludge separation, as well as wastewater treatment. The essence of the utility model lies in the fact that the wastewater treatment plant, including longitudinal chambers and compartments above the sump pit with feed trays having spills for uniform distribution of the sludge mixture along the chamber along both sides of the shelf module of thin-layer sediment sludge mixture, shelf module, drainage chutes uniform collection of settled waste fluid above the shelf module, pulsator tank with air supply pipelines, compressed air discharge, filling the pulsator tank sludge mixture w, a system of devices for removing sludge from the horizontal bottom of the first part of the sludge tank to the sump with an installed submersible pump for pumping return activated sludge into the aeration tank, a wastewater treatment bioreactor chamber divided in length into compartments equipped with cassettes with a ruff nozzle and a waste aeration bubbler system liquid and regeneration of the brush nozzle, while the secondary horizontal sump is divided by a vertical partition into two parts, in the first part along the movement of the water there is a thin-layer pulsation onny desilter, wherein the width of the sum of two longitudinal strips with the feed chambers ilorazdeleniya under shelf space-sludge mixture trays, referred to as the width occupied by the shelving unit in a ratio of at least 1: 4, the bandwidth

a shelf module, gravitating with a stream of clarified water to one catchment tray, is installed no more than 40 times the inter-shelf distance of the shelf module, perforated bubble tubes are installed under the thin-layer modules, and the height between the bottom of the catchment tray with the most suitable hydraulic cross-sectional shape and the top of the shelves is assigned than 3 times greater than the inter-shelf distance of the shelf module, and in the second along the direction of movement of the water there is a bioreactor chamber for wastewater treatment.

Description

The utility model relates to devices for wastewater treatment and can be used in public utilities for the treatment of urban and similar industrial wastewater composition close to them.

A device for biological wastewater treatment including an aeration tank, a secondary horizontal sump with a scraper mechanism for transporting activated sludge to the sump of the sump, a recirculation system for return sludge (S.V. Yakovlev and others. Sewerage, Textbook for universities, M., Stroyizdat, 1975. ) The disadvantages of the device are:

- Low oxidative power and low cleaning efficiency of the device as a whole;

- Complex design and unstable operation of scraper mechanisms designed for transporting settled activated sludge to the pit of a horizontal settling tank;

- It is not possible to reduce the concentration of organic and suspended substances to less than 15.0 mg / l without the construction of additional capital-intensive wastewater treatment plants.

The closest in technical essence is the installation for biochemical wastewater treatment (Installation for biochemical wastewater treatment. Patent No. 2183592, C 02 F 3/12, 08/08/2002, 12 pp.), In which, after separation of large solids by filtering through nets sand removal by sedimentation, biological treatment of wastewater by communities of attached and free-floating microorganisms is carried out using thin-layer pulsation sludge separators for separation, clarified water is discharged through the tray to the inlet of the cleaned Wastewater

into the chamber of the wastewater treatment bioreactor, divided into three compartments filled with containers with a brush nozzle, equipped with separately working systems for bubblers of aeration of water and regeneration of the nozzle from the brush with devices and communications for the drainage of regeneration water.

However, this installation does not provide high-quality and time-stable removal of individual activated sludge from horizontal sections of the bottom of the sump and requires large capital investments for wastewater treatment facilities.

The objective of the utility model in the development of structural elements allowing reconstruction of secondary horizontal settling tanks into a combined construction to ensure stable and more effective sludge separation, as well as wastewater treatment.

The essence of the utility model lies in the fact that the wastewater treatment plant, including longitudinal chambers and compartments above the sump pit with feed trays having spills for uniform distribution of the sludge mixture along the chamber along both sides of the shelf module of thin-layer sediment sludge mixture, shelf module, drainage chutes uniform collection of settled wastewater above the shelf module, pulsator tank with air supply pipes, compressed air discharge, filling the pulsator tank sludge mixture w, a system of devices for removing sludge from the horizontal bottom of the first part of the sludge tank to the sump with a submersible pump for pumping return activated sludge into the aeration tank, a bioreactor for wastewater treatment bioreactor, divided along the length into compartments, equipped with cassettes with a ruff nozzle and a waste aeration bubbler system liquid and regeneration of the brush nozzle, while the secondary horizontal sump is divided by a vertical partition into two parts, in the first part along the movement of the water there is a thin-layer pulsation onny

sludge separator, and the width of the sum of two strips of longitudinal chambers of the sludge with trays feeding silt mixture under the shelving space, is related to the width occupied by the shelving module in a ratio of at least 1: 4, the width of the shelving module strip gravitating with the flow of clarified water to one drainage tray is set to not more than than 40 times the inter-shelf distance of the shelf module, perforated bubble tubes are installed under the thin-layer modules, and the height between the bottom of the drainage channel with the most hydraulically advantageous shape of the first cross-section and the top of the shelves is assigned no less than 3 times greater than the inter-shelf distance of the shelf module, and in the second along the direction of movement of the water there is a bioreactor chamber for wastewater treatment.

The utility model makes it possible to reconstruct secondary horizontal settling tanks into a combined construction to ensure stable and more effective sludge separation, as well as wastewater treatment. At the same time, high-quality sludge separation with a concentration of suspended solids after a pulsation sludge separator of not more than 10-15 mg / l is ensured, the probability of biofouling of the shelves of the thin-layer module is reduced, and highly efficient wastewater treatment is provided.

To ensure this advantage, the secondary horizontal settler is divided into two parts by a vertical partition, in the first part along the water flow there is a thin-layer pulsating sludge separator, the width of the sum of two stripes of the longitudinal separation chambers with the trays feeding the silt mixture under the shelf space is related to the width occupied by the shelf module in a ratio of not less than 1: 4, the strip width of the shelf module, gravitating with the flow of clarified water to one drainage tray, is set no more than 40 times b proc eed inter-shelf range shelf module, under the lamella

perforated bubble tubes are installed by the modules, and the height between the bottom of the catchment tray with the hydraulically most advantageous cross-sectional shape and the top of the shelves is assigned at least 3 times greater than the inter-shelf distance of the shelf module, and in the second along the course of the water there is a wastewater treatment bioreactor chamber.

The essence of the utility model is illustrated by the drawing, where in Fig.1 - shows a longitudinal section of the installation, Fig. 2 presents the installation plan.

Biological wastewater treatment is carried out in an aeration building 1, a secondary horizontal settler 2 with a submersible pump 3 for transferring return activated sludge to the aeration tank is divided by a partition 4 into two parts. The first part in the direction of movement is a thin-layer pulsation sludge separator 5, including two longitudinal chambers of sludge separation 6, a shelf module of thin-layer sedimentation of sludge mixture 7, feeding trays 8, prefabricated trays 9, perforated bubble tubes 10 are installed under the shelf module 7, at the end of the first part the pulsator 11 is located with the air supply pipe 12 connected to it, the sludge intake pipe 13 and the compressed air discharge pipe from the pulsator 14, under the shelf module 7 in the horizontal bottom zone aspolagaetsya system devices for Squeegee sludge with a horizontal bottom part of the settler to the first pit 15. The second part of the direction of travel is a bioreactor chamber tertiary sewage treatment 16 disposed therein cassettes with Ershov nozzles 17; a system of bubblers 18 for aeration of wastewater and regeneration of cassettes with a ruff nozzle and a system for removing excess biomass from the after-treatment unit after regeneration 19.

From the aeration plant for biological treatment with activated sludge 1 through the pipelines, the sludge mixture enters the secondary horizontal settling tank 2, divided into two parts of the vertical

by a partition 4. The first part 5 is divided into longitudinal chambers of the sludge compartment 6 with feed trays 8 installed in them, into which the sludge mixture flows from the aeration structure 1. Pouring from the trays 8, the sludge mixture is evenly distributed along the length of the chambers 6 and receives a downward direction of movement. Next, the sludge mixture, leaving the bottom of the chambers 6, enters the shelf module of thin-layer sedimentation of the sludge mixture 7. Moreover, the design of the chambers 6 is such that the width of the sum of two strips of longitudinal chambers of the sludge separation 6 refers to the width occupied by the shelf module 7 in a ratio of at least 1 :4. This design of the elements and the adopted ratio make it possible to achieve a downward flow velocity of the sludge mixture in chambers 6 not exceeding 20.0 mm / s at the costs recommended by the regulatory literature for calculating thin-layer shelf sedimentation tanks and recirculation coefficients of up to 100%. At a speed of 20 mm / s, the sludge mixture is guaranteed to be free of air bubbles and, passing into the shelf space, is divided into activated sludge, which falls to the bottom of the sump, and returns clarified waste water to the aeration structure 1 with an immersion pump. The clarified waste water is collected in trays 9 and discharged into the second part of the sump 16.

The number of prefabricated trays and their arrangement in the plan is arranged so that the strip width of the shelf module 7, gravitating with the flow of clarified water to one catchment tray 9, is set no more than 40 times the inter-shelf distance of the shelf module 7. Moreover, the height between the bottom of the prefabricated trays 9 with a hydraulically most advantageous cross-sectional shape and the top of the shelves of module 7 are assigned at least 3 times greater than the inter-shelf distance of the shelf module 7. With this design solution, the hydraulic resistance of the treated waste fluid inside the service area with one collection tray is practically

it is the same from all shelves to drainage edges, which makes it possible to evenly distribute the load over the entire area of the shelving thin-layer sludge separator 7. The hydraulically most advantageous cross-section of the drainage tray allows one to obtain minimal pressure losses in the first part of the reconstructed sump and to use the volume of the second part to maximize wastewater treatment.

To prevent biological fouling of the module shelves, a pulsator 11 is arranged at the end of the first part, which has a continuous air supply 12 at the top and, as the sludge mixture is displaced to a water trap located in the lower part of the tank, water is squeezed out in the water trap and the air is blown into the atmosphere through a waste pipe 14.

The emptied pulsator 11 through the pipes 13 is filled with a sludge mixture for several seconds, lowering the water level in the chambers 6 and in the shelving space of the sludge separator 7. A sharp lowering of the water level in the shelf space and, very importantly, a sharp cessation of movement provides an active shift of the active settled on the shelves sludge and its sliding, preventing the accumulation and fouling of the shelf space of the module 7. Bubble tubes 10 are used for periodic intensive, 2-3 times a week, purge the shelf space with air. Before blowing off the minimum flow of wastewater to the treatment plant during the hours, the water supply to the sump stops, the high-intensity air supply through the pipes 10 creates an active turbulization of the sludge mixture inside the module 7, which leads to the separation of adhered particles and effective regeneration of the inter-shelf space.

To prevent the occurrence of activated sludge in a horizontal section of the bottom of the first part 5 of the reconstructed sump 2, under the shelf module 7, a system of devices is arranged for driving sludge from the horizontal bottom of the first part of the sump to the sump 15.

Active sludge, being in anaerobic conditions on a horizontal section of the bottom of the first part 5, floats to the surface and is carried out from the shelf module, impairing the quality of the separation. The system 15 is performed in several versions, both hydraulic with the creation of space turbulization using pumping equipment, and mechanical with the creation of turbulization using submersible mechanical devices (mixers). At the same time, it can operate both in batch and continuous modes, preventing the sludge from settling and decaying, and ensuring its stable transportation by a moving stream to the sump of the settler 2.

In the second distinguished part 16, a multi-stage wastewater treatment is carried out by a biocenosis attached to cassettes with a ruff loading 17, after which the purified water is discharged into a water body. Aeration of the wastewater and the regeneration of the cassettes with a rough loading is carried out by a system of bubblers 18, and the biomass removal after the regeneration of the after-treatment unit is carried out by the system 19.

The treated wastewater after the combined construction has the following parameters: suspended solids - 1 ... 3 mg / l; BOD _p = 1 ... 3 mgO ₂ / l; ammonium nitrogen - 0.1 ... 0.3 mg / l; nitrites - 0.03 ... 0.05 mg / l; nitrates 20 ... 25 mg / l.

Claims (1)

Wastewater treatment plant, including longitudinal chambers for separation of sludge mixture along the length of the chamber on both sides of the shelf module of thin-layer sedimentation of sludge mixture, shelf module, drainage trays for the uniform collection of settled sewage liquid over the shelf module , a pulsator tank with pipelines for supplying air, discharge of compressed air, filling the pulsator tank with a sludge mixture, a system of devices for conveying sludge with horizontal ntal bottom of the chamber to the pit, with a submersible pump for pumping return activated sludge into the aeration tank installed therein, a wastewater treatment bioreactor chamber divided along the length into compartments equipped with cassettes with a brush nozzle and a system for bubblers aeration of the waste liquid and regeneration of the brush nozzle, characterized in that the secondary horizontal sedimentation tank is divided into two parts by a vertical partition, in the first part along the movement of the water there is a thin-layer pulsating sludge separator, and the width of the sum of two polo longitudinal chambers of the separation section with trays feeding silt mixture under the shelf space, are assigned to the width occupied by the shelf module in a ratio of at least 1: 4, the strip width of the shelf module gravitating with the flow of clarified water to one drainage tray is set to no more than 40 times the inter-shelf distance shelf module, perforated bubble tubes are installed under the thin-layer modules, and the height between the bottom of the catchment tray with a hydraulically most favorable cross-sectional shape and the top of the shelves m is not less than 3 times greater than the distance of inter-shelf shelf unit, and the second during the movement of the water chamber located tertiary sewage treatment bioreactor.