RU155237U1 - DEVICE FOR CLEANING WATER WASTE WATER - Google Patents

Abstract

1. A device for treating domestic wastewater, including a housing with inlet and outlet nozzles, while the inner cavity of the housing is divided by partitions with overflow openings into three chambers, the aerator and the sorption carrier material are placed in the second chamber, and the airlift is installed in the third chamber, hydraulically connected to the first chamber and configured to provide recycling of wastewater inside the device, characterized in that in the first chamber, at the level of the overflow hole on the partition, a per orirovannaya floating capacitance load, and the second chamber as the sorption of the carrier material arranged floating loading, and at the outlet pipe inside the third chamber is a filter with a perforated peregorodkoy.2. The device according to claim 1, characterized in that the housing is equipped with two necks. 3. The device according to claim 2, characterized in that the casing is made of polymer with stiffening ribs vertical along its long sides and horizontal at the ends. The device according to claim 1, characterized in that a pump is installed in the third chamber.

Description

The utility model relates to devices designed for mechanical and biological wastewater treatment using activated sludge and can be used to treat domestic sewage in individual buildings.

The prior art device for the treatment of domestic wastewater, including solid cast polyethylene housing with two necks, as well as inlet and outlet pipes, while the inner cavity of the housing is divided by partitions with overflow openings into three chambers, one of which has a biofilter (RU 144017, 08/10/2014). In the known device, the first two chambers perform the function of a settler, and provide the separation of effluents into clarified water and precipitated solid fractions, while the wastewater in the third chamber is filtered through a biofilter without oxygen saturation, and therefore, the reproduction of aerobic bacteria is difficult and the drains do not pass deep degree of purification.

The prior art device for the treatment of domestic wastewater including a polyethylene housing with inlet and outlet tubes, the inner cavity of the housing is divided by a partition into chambers, in addition, the device is equipped with an aerator to increase the growth of aerobic bacteria and airlift, which enables the transfer of activated sludge from one chamber to another (RU 96570, 08/10/2010). The known device provides a deeper wastewater treatment due to aerobic oxidation of contaminants in the first chamber and the return of activated sludge from the settling chamber to the aeration chamber by means of airlift. However, due to the high content of organic substances in domestic wastewater, the purification process is not sufficiently effective, since organic compounds contain a large amount of elements toxic to nitrifying microorganisms.

Closest to the claimed utility model is a device for treating domestic wastewater, including a housing with inlet and outlet nozzles, while the internal cavity of the housing is divided by partitions with overflow openings into three chambers, moreover, in the second chamber there is an aerator and a sorption carrier material made in in the form of a flooded load, and in the third chamber an airlift is installed, hydraulically connected to the first chamber and configured to ensure recycling of wastewater inside the device (RU 84839, 20 07.07.2009, prototype). In the process of treating domestic wastewater using a known device, the effluents entering the second chamber contain a large percentage of organic substances, since they do not undergo anaerobic decomposition in the first chamber. Due to the significant organic load in the second chamber, the growth rate of nitrifying bacteria is not sufficient for deep wastewater treatment. In addition, the flooded loading, fixedly mounted in the second chamber of the device, does not provide active updating of the biofilm. At the same time, the sludge entering the third chamber through the overflow hole can flow with the filtered water into the outlet pipe. The listed disadvantages identified in the analysis of the closest analogue affect the decrease in the quality of domestic wastewater treatment.

The objective of the claimed utility model is to create a simple and effective device for the treatment of domestic wastewater.

The technical result is to increase the degree of wastewater treatment.

The achievement of the technical result provides a device for treating domestic wastewater, including a housing with inlet and outlet nozzles, while the internal cavity of the housing is divided by partitions with overflow openings into three chambers, moreover, in the second chamber there is an aerator and sorption carrier material, and in the third chamber an airlift is installed, hydraulically connected to the first chamber and configured to ensure recycling of wastewater inside the device, while in the first chamber, at the level of the overflow hole ment mounted on the partition perforated with floating capacitance, and the second chamber as the sorption of the carrier material arranged floating loading, and at the outlet pipe inside the third chamber is a filter with a perforated partition.

According to the claimed utility model, the device case is equipped with two necks.

According to the claimed utility model, the device body is made of polymer with stiffening ribs vertical along the long sides and horizontal at the ends.

According to the claimed utility model, a pump is installed in the third chamber.

The claimed utility model is illustrated by drawings.

In figure 1, a device for treating domestic wastewater - General view.

In figure 2, a device for the treatment of domestic wastewater in longitudinal section.

A device for treating domestic wastewater includes a housing 1 with input 2 and output 3 nozzles. The internal cavity of the housing is divided by partitions 4, 5 with overflow holes 6, 7 into three chambers. An overflow hole 6 in the partition 4 separating the first and second chambers is located in the upper part of the device. An overflow hole 7 in the partition 5 separating the second and third chambers is located at the bottom of the device. Aerator 8 with a floating charge 9 is placed in the second chamber. In the third chamber, an airlift 10 is installed, which is hydraulically connected through the pipe 11 to the first chamber. The device is equipped with two mouths 12 with opening covers, providing access to all three chambers, necessary for maintenance of the device. An air compressor 13 is installed in the neck located above the first chamber and is designed to supply air to the airlift 10 and the aerator 8 through a pipe 14 located between the two necks and then through the hoses 15. In the first chamber, at the level of the overflow hole 6 on the partition 4, a perforated container is installed 16 floating-boot (not shown). At the level of the outlet pipe 3, a filter 17 with a perforated partition 18 is installed inside the third chamber 18. The device body is made of polymer with vertical stiffeners 19 along its long sides and horizontal stiffeners 20 at the ends. According to one embodiment of the utility model, a pump (not shown) is installed in the third chamber of the device.

The claimed utility model works as follows.

Wastewater through the sewer pipe through the inlet pipe 2 enters the first chamber, where fermentation and separation of effluents into organic and inorganic impurities and sedimentation to the bottom in the form of a solid precipitate of heavy inorganic substances that are not degradable occur. When the effluent passes through the tank 16, in which the floating load is located, a biofilm consisting of anaerobic bacteria is formed on the surface of the load. A biofilm adsorbs dissolved and suspended organic matter contained in wastewater flowing through the charge. The clarified water entering through the overflow hole 6 into the second chamber is saturated with oxygen through the aerator 8, which contributes to the intensive growth of activated sludge on the floating charge 9 providing oxidation of effluents purified from large fractions. Wastewater, previously received anaerobic treatment in the first chamber, undergoes a deeper aerobic treatment in the second chamber, without exerting an excessive load, with an excessive content of organic impurities, on aerobic microorganisms. In addition, under the action of aeration, the components of the floating charge 9 (polymer tubes) are in constant motion, interacting and touching each other, which contributes to the detachment of the old biofilm from their surface and the formation of a young one, which also affects the increase in the intensity and quality of wastewater treatment . In the case of using a flooded load fixedly inside the chamber, the process of updating the biofilm proceeds much more slowly. Water entering the third chamber, containing flakes and fragments of activated sludge, is additionally filtered through the perforated baffle 18 of the filter 17 before overflowing into the outlet pipe 17. In this case, the airlift 10 pumps a part of the liquid along with the residual impurities contained in it from the third chamber through the pipe 11 into first camera. The operation of the aerator 8 and the airlift 10 is supported by an air compressor 13, which supplies air through a pipe 14, installed between the two necks, and hoses 15. Under the anaerobic conditions of the first chamber, the excess activated sludge received from the third chamber is processed and the particles contained in it are sedimented. Thus, in the claimed utility model, a continuous closed cycle of work is provided, due to which the most profound wastewater treatment takes place. According to one embodiment of the claimed utility model, a pump may be installed in the third chamber, which is necessary for pumping the treated water in the case of a high level of groundwater. The housing of the device is made of polymer with vertical stiffeners along its long sides and horizontal stiffeners at the ends.

Claims (4)

1. A device for treating domestic wastewater, including a housing with inlet and outlet nozzles, while the inner cavity of the housing is divided by partitions with overflow openings into three chambers, the aerator and the sorption carrier material are placed in the second chamber, and the airlift is installed in the third chamber, hydraulically connected to the first chamber and configured to provide recycling of wastewater inside the device, characterized in that in the first chamber, at the level of the overflow hole on the partition, a per orirovannaya floating capacitance load, and the second chamber as the sorption of the carrier material arranged floating loading, and at the outlet pipe inside the third chamber is a filter with a perforated partition. 2. The device according to p. 1, characterized in that the housing is equipped with two necks. 3. The device according to claim 2, characterized in that the casing is made of polymer with stiffening ribs vertical along its long sides and horizontal at the ends. 4. The device according to claim 1, characterized in that a pump is installed in the third chamber.

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