SU1030317A1 - Apparatus for treating effluents - Google Patents

Description

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about

00 The invention relates to wastewater treatment, in particular to devices for wastewater treatment on ships. A device for cleaning wastewater on ships is known, including a unit for separating solid components from wastewater, a container for storing and averaging wastewater associated with a unit for separating solid components by a pipeline, an electrochemical treatment unit associated with a container for storing and averaging wastewater pressure pipe, purified water tank, filters, energy block, circulation tank, pumps, pipes with CO valves installed on them. However, sedimentation of suspended particles in the ship's conditions with the constant action of rolling, roll and vibration does not always proceed successfully. Therefore, the bulk of the particles of contamination is delayed by filters, which, working in tense conditions, quickly become clogged and require frequent cleaning of the working surface. In addition, the device, with its structural complexity, is not efficiently and reliably in operation, requires careful maintenance of the condition of filters and valves, which significantly increases the cost and complexity of the cleaning process. In addition, ventilation is not provided in the device, which entails the penetration of unpleasant odors into the ship's premises. Also known is an installation consisting of a receiving tank, a pressure tank, a slurry tank, a pump, a torus mixer ejector and a cassette. The waste water enters the receiving tank, through the cassette with the aid of a pump, flows into the pressure tank, passes the ejector-mixer, mixes with air and returns to the cassette of the reception tank. Then it is again fed into the pressure tank for subsequent dissolution of air under it. pressure. From the pressure tank, the waste water enters through a flexible hose into the flotation tank to separate contaminants and remove clarified water. Before being fed into the flotation tank in wastewater, the EHT coagulates and disinfects the substance. Surfaced surface contaminants are removed by skipping mechanism into the slurry tank. Hos 17. . veterinary wastewater translucent into the discharge tank, where it is kept for a certain time for disinfection, and dumped overboard G2. However, the operation of a known installation does not meet the cost-effectiveness requirements due to the inefficient preparation of wastewater before the flotation tank (multiple circulation of the entire volume of wastewater into receiving tank for its pre-oxidation and saturation with air), which leads to a large amount of electricity Flotation tank has partitions that do not provide a reliable section neither pop-up pollutants or clarified water, opening a button to get them into the discharge tank. , The design does not provide a device for foam quenching, which leads to an increase in the volume of the sludge tank. For constant washing of the receiving cassette grate, a strong water pressure is required, which requires additional energy consumption. The inlet nozzle of the receiving cassette is located below the outlet, therefore, it receives waste water with only a small amount of ground air in the ejector-mixer. The non-rational introduction of a disinfectant, much of which is removed in the sludge. tank, leads to its unnecessary overruns. Chlorine is used as a disinfecting agent in the device. It is a toxic substance with a long half-life; therefore, its ingress into water bodies causes various disturbances of ecological processes. The purpose of the invention is to increase the efficiency of use of the installation by intensifying water treatment, ensuring compactness and reliability of the installation and reducing energy consumption. This goal is achieved in that the installation comprising a receiving tank, a flotation tank, circulating and ejection pumps is provided with a device placed in the receiving block for extinguishing foam installed in the flotation tank with a reaction chamber made of cylinders of different diameters with the possibility of three-stage mixing, as well as pressure filter installed after the flotation tank, while before the last placed ejector pump.

The drawing shows the proposed installation.

The installation consists of a receiving tank 1, an ejector pump 2, a flotation tank 3, a reaction chamber installed in it, made in the form of cylinders 5 of various diameters, a pump 6 connected with. filter 7, ozone generator 8, solenoid valves 9 and 10, control sensors 11 and 12, scraper trans-sporta 13, as well as the C-device for extinguishing foam installed in the receiving tank.

The installation works as follows.

After the coarse filter, the waste water enters the receiving tank 1 from where it is taken by an ejection pump 2, where it is mixed with a part of the saturated ozone-air mixture of water supplied from the filter 7 and fed to the chamber A of the reaction of the flotation tank 3. When relieving pressure, the air dissolved in the filter forms small bubbles, agglomerated with suspended particles of contamination and the resulting flakes of coagulating substance, also supplied to the ejection pump 2,

In the reaction chamber, the "forced" adhesion and separation of particles of contamination, which is in the waste water, sequentially occurs. Camera k is installed in the flotation tank so that

Removal of surfaced contaminants using the scraper conveyor 13 was the most rational, namely, in terms of collecting the maximum amount of foam. Through the slurry hose, the foam .j passes through the foam quencher 14 and enters the receiving tank 1. When destroyed by the wastewater flow, the foam is freed from adhering contaminants that sediment to the bottom of the receiving tank 1 and are periodically removed to the storm tank with the subsequent transfer to the ship OS. The amount of sediment is significantly less in volume than the amount of foam sludge forming 9c in the same period of time.

By means of the pump 6, the waste water from the flotation tank 3 is fed to the filter 7, where it is mixed with the ozone-air mixture supplied from the ozone generator 8. In the filter 7, the disinfection and filtering of the wastewater that has passed the preliminary treatment in the flotation tank 3 occurs successively. A portion of the wastewater, saturated and decontaminated, is fed to the ejection pump 2 as the atop of water. The ejection pump 2 is designed in such a way that the amount of incoming flow is four times the flow rate of the working water. ; The device is started and controlled by means of solenoid valves 9 and 10 and control sensors 11 and 12.

The device effectively treats wastewater and consumes a negligible amount of electricity.

Claims (1)

SEWAGE TREATMENT PLANT, containing a receiving • tank, flotation tank, circulation and ejection pumps, which, in order to increase the efficiency of use of the plant by intensifying water treatment, ensuring compactness and reliability in operation, and also reducing energy costs, it is equipped with a foam extinguishing device located in the receiving tank, a reaction chamber installed in the flotation tank made of cylinders of different diameters, and a pressure filter installed after the flotation ion tank, with an ejection pump placed in front of the latter,. .