SU1269840A1 - Method and apparatus for magnetic purifying of effluents - Google Patents

Description

2. A device for magnetic wastewater treatment, including a coagulation chamber with a granular loading on a grate, an inlet nozzle located in the lower part of the chamber and an inlet nozzle of the contaminated liquid type located in the upper part of the chamber, communicating with a sump, characterized in that the grille is designed as a colgector

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from interconnected perforated tubes, and the chamber is equipped with a bellows installed under the grill, a vibrator placed above the chamber, a pressure pipe and a source of compressed gas connected through the discharge pipe and bellows to the internal cavity of the grille, and the grille is spring-loaded and connected by means of a cable with vibrator

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The invention relates to the treatment of wastewater from magnetic and non-magnetic solid impurities and can be used in mining, it and other industrial areas.

The goal of the invention is to increase the cleaning efficiency by enhancing the ferromagnetic properties of the solid suspension.

FIG. 1 shows the technological scheme of wastewater treatment; on ig. 2 a device for carrying out the method according to the invention; longitudinal section. In FIG. 3 - it is possible to combine an elementary galvanic coupler at the time of closing the electro-granules in an air bubble with a surge of current and the formation of a magnetic vortex field.

The technological scheme includes a regulating tank, a pump station 2, a coagulation chamber 3 for preliminary magnetic treatment of water with a source of compressed gas, for example, a compressor 4, a discharge pipe 5, a magnetic sump b with electromagnets 7, a pure water tank 8, chlorinator (not shown ), sludge tank 9 with sludge pads 10 and pumps 11 and 12. The coagulation chamber 3 is filled in the form of tank 13, with MQvrenitbiM in the lower part with the nozzle 14 entering the contaminated liquid and fixed in the upper part of the overflow HP lobom 15 with the pipe 16 for output of treated water, and a lid 17 on which a vibrator is placed 1.8. In the tank 13 is a lattice made of perforated tubes

19, connected by means of a pull 20 to a vibrator 18 and mounted on springs 21. A bellows 22 is placed under the grid 19, and a grid 23 with a saturated layer of granules 24 is laid on its upper surface.

The method is carried out as follows.

Waste to be cleaned or

Mine water flows through conduit 25 to control tank 1, from which pumping station 2 is pumped through pipe 14 to coagulation chamber 3. It is then supplied via conduit 26 to magnetic sump b, where it is released from solid flocculating aggregates by means of electromagnets 7. The precipitate from settler 6 is collected in

sludge reserve 9, from where the pump 11 is discharged to the sludge pads 10. Sludge from the regulating tank I is pumped here by the pump 12

The pure water coming from the magnetic settling basin B is chlorinated and sent to the freshwater reservoir 8, from which pipeline 27 is diverted to the river network or used for household needs. In the coagulation chamber 3, a pretreatment of the liquid to be purified takes place with the formation of flocculent aggregates of a solid suspension in it. In order to form them, the compressor 4 and compressed air are supplied through the pressure pipe 5 and the bellows 22 to the internal cavity of the grid 19, made in the form of a collector of perforated tubes communicated between each other. At the same time, the vibrator 18 is turned on and the mechanical vibrations delivered by it to the grate 19 are transmitted by means of pull 20. In this case, the layer of granules 24, interacting with the surface of the grate 19, boils and goes into a fluidized state. Compressed air is bubbled through this layer, which bubbles out 28 from perforation holes made on the tubes of grate 19. Polluted water entering the coagulation chamber 3 fills the housing 13 and overflows through its upper edge into the same forehead 15, discharged through pipe 16 and conduit 26 to magnetic sump 6. Thus, the fluidized bed consisting of iron, copper and aluminum granules 24 is immersed in waste or mine water, which is always a weak electrolyte. Therefore, the fluidized bed granules 24 form mobile, constantly changing electroplating jelly pairs. zo - copper, aluminum - copper, iron aluminum, which leads to their electro-chemical dissolution and saturation of the liquid being purified with iron and aluminum ions. In addition, the granules 24, which can be viewed as electrodes of galvanic couples, due to continuous chaotic motion, briefly contact each other and air bubbles, which leads to the formation of intensively closing and softening electrical circuits in the fluidized bed.

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figure 2. 404 drink. These phenomena are accompanied by sharp surges of electric current in galvanic couples and the appearance of numerous vortex magnetic fields 29 localized near each interacting galvanic couples. The iron ions formed in the liquid being purified are oxidized by oxygen from air bubbles and are chemically sorbed on the surface of a non-magnetic solid suspension. In this case, iron oxides, appearing in the zone of action of the magnetic field 29, acquire an ordered structure and are magnetized, and the aluminum compounds coagulate the suspended particles into large flocculent aggregates, which, thus, regardless of their nature and composition, acquire strong magnetic sensitivity. This allows fast. To precipitate them in a settling tank 6 with an external magnetic field excited by electromagnets 7. The invention makes it possible to enhance the magnetic properties of iron oxides and to impart a magnetic susceptibility to nonmagnetic substances of a solid suspension, regardless of their nature and composition, which will allow the efficiency of wastewater and mine waters to be increased. In addition, due to the effect of the magnetic field, the precipitate formed is strongly condensed, which contributes to its more intensive dehydration and shortens the time required to bring the sediment to the required moisture. . ..

Claims (2)

1. A method of magnetic wastewater treatment, including treating water with coagulants to form magnetically susceptible aggregates and flakes from solid suspended matter and depositing them in the magnetic field of sedimentation tanks, characterized in that, in order to increase the cleaning efficiency by enhancing the ferromagnetic properties of the solid suspension, the liquid is first passed through a fluidized bed of iron, aluminum and copper granules before being sent to the sump, while air oxygen is additionally blown into the bed with its bubbling kvoz layer. SU „„ 1269840 2. A device for magnetic wastewater treatment, including a coagulation chamber with granular loading on a grate, an inlet pipe located in the lower part of the chamber and a contaminated liquid outlet pipe located in the upper part of the chamber, communicating with a sump, which differs in that the grate is made in in the form of a collector of perforated tubes interconnected, and the chamber is equipped with a bellows mounted under the grill, a vibrator located above the chamber, a pressure pipe and a source of compressed gas connected to Through a pressure pipe and a bellows with an internal cavity of the grill, and the grille is spring-loaded and connected via a rod to the vibrator.