SU1759792A1 - Unit for the flotation-based cleaning of water - Google Patents

Abstract

The invention relates to apparatus for the flotation separation of materials and is intended for the treatment of water, industrial and domestic wastewater contaminated mainly with readily destructive impurities, such as hydroxides, activated sludge flakes, and the like. The aim of the invention is to increase the degree of purification by making it possible to control the conditions of displacement of the source water and water-air mixture. A plant for flotation water purification contains a chamber 1 to which the invention is attached to apparatus for flotation separation of materials and is intended for the treatment of water, industrial and domestic wastewater polluted mainly by easily destroyed impurities, for example, hydroxides, active flakes silt, etc. It can be used for separation of sludge mixtures in the systems of biological wastewater treatment. The purpose of the invention is to increase the degree of purification by making it possible to control the mixing conditions of the source water and water-air mixture. pockets for collecting foam 2 and purified water 3. In the upper part of the chamber foam is located, and in the lower part there is an emptying pipeline. The pump 7 is provided with a pipeline 8 for supplying an air-air mixture to a saturator 9 (pressure tank) and a bypass line 10, on which an ejector 11 is installed to supply air to the suction line. The installation is equipped with an additional ejector 14 installed on the pipeline 15 of the source water, the discharge pipe of which is in communication with the suction pipe of the ejector 13 installed on the pipe 12 of the water-air mixture. The suction inlet of the ejector 14 is equipped with an air supply regulator 16. With the peguliru amount of air ejected into the original wastewater, these conditions are achieved by mixing the source water and the water-air mixture in the ejector 13 to minimize the destruction of contaminants. The air entering through the ejector 14 plays the role of a buffer, extinguishing the energy of the water-air mixture flow. 1 il. The drawing shows an installation for flotation water purification, a general view. The plant for flotation water purification contains a chamber 1, to which a pocket 2 is attached for collecting foam and 3 for collecting purified water. Pocket 2 va6- is wired by pipe 4 for discharging foam, to, .- man 3 is equipped with pipelines for removing purified water 5 and for supplying v 6 to pump 7. In the upper part of chamber 1 there is a foam mechanism, at the bottom - an emptying pipeline ( drawing not indicated). The pump 7 is equipped with a pipeline 8 for supplying water (L C h- X | ate XI th

Description

a mixture to a saturator (pressure tank) 9 and a bypass line 10, on which an ejector 11 is installed to supply air to the suction line (pipeline 6). The saturator 9 is connected to the chamber 1 by a pipe 12, on which the ejector 13 is placed. The suction port of the ejector 13 is connected to the pressure port of the additionally installed ejector 14, to which the pipeline 15 is connected to supply the source water. The suction inlet of the ejector 14 is provided with a regulator 16 for changing the amount of ejected air (air buffer volume),

In the upper part of the chamber 1 there is a foam 17 for raking up the foam in the pocket 2.

The installation works as follows.

The initial wastewater is polluted with easily destroyed impurities (sludge mixture), through conduit 15 it enters the nozzle of an additionally installed ejector 14, where it is saturated with air. Since the pressure ejector 14 is in communication with the suction inlet of the ejector 13, the air is ejected into the ejector 14 due to the speed of the jet of the initial waste water and the discharge created by the ejector 13. Thanks to this message of the ejectors 14 and 13 The ejector nozzle 14 is less than 10 l / s, which also prevents the destruction of contaminants (flakes of activated sludge). Sewage water, initially saturated with air, passed through the pressure and suction nozzles, enters the mixing chamber of the ejector 13, It is mixed with the water / air mixture flowing through conduit 12 from the saturator 9. The mixing conditions are controlled by the amount of air ejected into the ejector 14. The change in these conditions is made by the regulator 16. The air that comes from the original waste water acts as a buffer, extinguishing the energy of the jet of water-air mixture, softening the conditions of mixing of the two streams. This prevents the destruction of contaminants (flakes of sludge), increases the degree of purification. By regulator 16, the amount of ejected air, you can directly affect the conditions of mixing the source water and water-air mixture, selecting the optimal mode for cleaning efficiency. Thus, supplying the installation with an additional ejector, which is associated with it in this way, provides a higher effect. cleaning by preventing

destruction of pollution, the possibility of regulating the process,

The mixture formed from the discharge port of the ejector 13 enters the flotation cell 1, where it is deaerated. Foam foam 17 is scooped into pocket 2, from where it is removed through conduit 4. Purified water enters pocket 3 and is removed from it (and from the entire installation) through conduit 5, Circulating fluid, designed to form an air / water mixture, from pocket 3 The pipeline 6 enters the suction inlet of the pump 7, which creates the necessary saturation pressure. Part of the flow through the bypass line 10 through the ejector 11 is returned to the suction line of the pump 7, This results in the formation of a water-air mixture. Through the pipeline 8, the air-water mixture is supplied to the saturator 9, where it is held under pressure for 3-5 minutes. From the saturator 9 through the pipeline 12, the air / water mixture is fed to the ejector 13, where it is mixed with the original wastewater.

With the help of the regulator 16 during operation, this mode of supplying air to the ejector 14 is selected, which ensures minimal destruction of contaminants. The adjustment can be carried out automatically using readings, for example, of a mute gauge installed in line 5.

The use of the proposed invention provides an increase in the degree of purification during the treatment of wastewater (sludge mixtures) contaminated with readily destructive impurities. This is achieved by the ability to control the mixing conditions of the source water and the air mixture to ensure minimal destruction of contaminants.

Claims (1)

Invention Formula A plant for flotation water purification, including a flotation cell, supply lines for the source water and water-air mixture, a pump, a saturator, connecting pipes and two ejectors, one of which is located on the bypass line of the pump, and the other on the water-air mixture line, that, in order to increase the degree of purification by allowing regulation of the mixing conditions of the source water and the air / air mixture, the source water pipeline is equipped with an air flow regulator and an ejector; ubok which it communicates with the suction pipe of the ejector, located on the pipe of water-air mixture. // Vl. .TJ / JoV / rs "aaza2 T J Ch Yap / / - L / - i / 4 / I t f Mcfodxasi Soda14 / J CHN 6 ch / l f 11: / z jL