RU2004503C1 - Method of treatment of drainage liquid - Google Patents

Abstract

Usage: purification of wastewater and drinking water from gases and vapors of easily volatile impurities. SUMMARY OF THE INVENTION: A method for purifying water involves supplying it to flotation in a transparent siphon pipe, on the inner surface of which microflora is cultivated. 1 of f-ly.

Description

The invention relates to the field of wastewater treatment, as well as to the purification of drinking water from gases and easily volatile impurities before feeding it to a collapsible collector.

A known method of purification of wastewater using bio-disks, the lower part of which is immersed in the cleaned liquid. As the discs rotate, the biofilm that has formed on their surface removes impurities from the liquid being cleaned and oxidizes them with the help of atmospheric oxygen. A significant drawback of this method is the insufficient degree of purification, due to the fact that the concentration of suspended particles at the surface of the bio-disks immersed in the wastewater, as well as between them, which leads to ineffective cleaning and the need to direct the effluents to further biooxidation in other devices.

There is also known a method for purifying wastewater from contaminant particles, the essence of which is to create a supersaturated air solution in it, followed by supplying wastewater to a vacuum flotator, where the resulting air bubbles float the contaminants and then remove the contaminant along with the foam.

The disadvantage of this method is the difficulty of operating the vacuum flotator and the insufficient degree of purification at a concentration of suspended particles above 25 mg / l, and also the fact that it is impossible to achieve deep purification of the wastewater with this method.

The aim of the invention is to increase the depth of wastewater treatment through a combination of aerobic, anaerobic, physicochemical methods for cleaning suspended particles of contaminants, degassing the wastewater and purifying it from readily volatile liquids. This goal is achieved by supplying wastewater under vacuum through a pipeline, on the inner surface of which microflora are cultivated, which is capable of removing organic and mineral contaminants.

Under the action of rarefaction, gas and vapor bubbles are released.

Moving through the pipeline under the action of a liquid stream, gas-vapor bubbles capture suspended impurities on their surface and transfer them to the upper section of the pipeline section, thereby forming a layer with a high content of pollution and oxygen necessary for microflora growth. Layer

bubbles protects the microflora from direct contact with the liquid, which prevents its disruption from the inner surface of the pipeline before washing, not

compacted in this case, since the microflora layer grows from top to bottom.

At the same time, anaerobic liquid purification is carried out in the lower part of the pipeline, also due to

biofilms. The biofilm layer in this part of the pipeline grows much slower than in the upper part because no nutrients are specially delivered to its surface.

5 The flushing of the pipeline, its frequency determines the size of the upper microflora layer, which easily breaks off the walls of the pipeline along with the lower layer when liquid is supplied under pressure to the pipeline.

0 A liquid containing microflora is used to deposit microflora on the inner surface of the pipeline by passing it through the pipeline.

To ensure operability

5 of the cleaning device, select its parameters in such a way that during cleaning with acceptable variations in the liquid parameters, vapor-gas plugs do not form in the upper part of the siphon pipeline. The diameter of the pipeline is chosen so that when the fluid is slowly supplied along its horizon and vertical sections, an artificially created air plug moves with

5 liquid without a fluid flow past it. And the height of the intake and drain sections of the pipeline is chosen such that, with maximum changes in the concentration of gases in the liquid, taking into account the concentration

0 volatile liquids the flow of fluid through the pipeline did not stop.

During the cleaning process, the flow cross-section of the pipeline is gradually reduced due to the growth of the biofilm, and because the flow cross-section of the pipeline is completely overgrown, it is cleaned by supplying liquid under pressure from the drain section of the pipeline. Such a change in the direction of the flow at a high flow rate provides biofilm breakdown from the surface of the pipeline, and also provides effective cultivation of microflora on the inner surface of the pipeline after 5 Yeni cleaning. Since the liquid will retain the original direction of movement along the pipeline after washing, and part of the adapted physiological groups and types of microorganisms from this mixture will be cultivated in accordance with the previous zones of their location along the length of the pipeline. To control the correct selection of the parameters of the pipeline, the degree of its contamination and the quality of cleaning, the pipeline is made transparent.

In addition, the inventive method can be used to prepare sewage for its treatment in other systems of treatment facilities. For this, using the inventive method, the wastewater is degassed while it is cleaned of easily volatile liquids.

Example. The proposed method for wastewater treatment can be carried out using a siphon pipeline. The maximum internal diameter of the pipeline is determined depending on the parameters of the waste fluid so that gas bubbles do not form a gas plug in its upper part. The dimensions of the pipeline are selected so that at the limiting concentrations of gases and easily volatile liquids, the flow of sewage along it does not stop. In the case of cleaning the post-yeast mash at its temperature of 35 ° С, Ph - 4.0 and gas concentration not higher than 20 mg / l, the diameter of the pipeline is 6 mm, the height of the horizontal part of the pipeline is equal to the length of the drain part and is 7 m, the length of the horizontal part equal to 3 m, and the height of the intake part is equal to 4 m from the level of the drain hole. Fluid cleaning on this

Claims (2)

1. METHOD FOR CLEANING WASTE LIQUID, including aeration, supplying wastewater to the flotation under vacuum, removing foam with contaminants, discharging purified liquid, characterized in that, in order to increase the depth of wastewater treatment by combining aerobic, anaerobic and physic -chemical methods, purification from suspended solids, degassing liquids, as well as purification from volatile liquids, The stage consisted in removing suspended yeast, dissolved gases, and partially reducing substances from it, which was confirmed by laboratory tests that showed the absence of yeast and free gases in it. At the next stage of cleaning, which consists in aeration of this liquid and its subsequent passage through the same pipeline, active reduction substances are removed from it. Using the proposed method for wastewater treatment allows high-quality purification of liquids from particles, gases suspended in it, from easily volatile liquids mixed with it and from mineral and organic substances dissolved in it at low energy consumption. As a result, high efficiency of wastewater treatment is achieved, and drinking water purified in this way, taken from reservoirs, is protected from aerobic microorganisms and free chlorine. The use of the invention in land reclamation systems improves the quality of water in rivers. (56) Yakovlev S. 8. and other wastewater treatment. M .: Stroyizdat, 1985, p. 205. Yakovlev S.V. and other wastewater treatment. M: Stroyizdat, 1985, p. 140. wastewater is supplied to the flotation in a siphon pipeline, gases and vapors of easily evaporated liquids are removed from the wastewater by cavitation in a siphon pipeline, microflora for biooxidation of pollutants is cultivated on the inner surface of the siphon pipeline, and suspended solids are floated in the upper part of the pipeline. 2. The method according to claim 1, characterized in that the siphon conduit is transparent and its regeneration is carried out in countercurrent flow of the purified liquid under pressure.