CS210860B1 - Electromagnetic coagulating apparatus - Google Patents

Description

The invention relates to an electromagnetic coagulator which is intended for the magnetic coagulation of ferromagnetic particles of circulating and waste water.

In practice, the treatment of wastewater or circulation water contaminated by ferromagnetic particles, such as those resulting from wet scrubbing of a flue gas steelmaking process, which produces a plurality of iron oxide dust fractions, is practically carried out by sedimentation of insoluble slurry fractions in settling tanks. The degree of sedimentation depends on the weight of the ferromagnetic particles and is very low for very fine dust fractions. The sedimentation process is therefore intensified by the addition of a polyelectrolyte while simultaneously adjusting the pH of the purified water with lime milk or chemical coagulation is also used. These methods are quite expensive to operate, requiring additional dosing devices, constant control and control of the proportions of these substances in the purified water.

The above mentioned drawbacks are eliminated by the electromagnetic coagulator in. in the form of an intermediate pipeline having at least one solenoid according to the invention, characterized in that the solenoid is embedded in a magnetic extension and a longitudinal axis of the coagulator housing is fitted with a ferromagnetic core provided with pole extensions and a non-magnetic insert; non-magnetic substances. According to the invention, the housing of the electromagnetic coagulator may be made of a non-magnetic, electrically conductive substance and the spindle ferromagnetic core is connected to one pole and the housing of the electromagnetic coagulator to the other pole of the direct current source.

The invention has the advantage that the ferromagnetic particles dispersed in water flow perpendicularly to the direction of the magnetic field lines extending from the solenoid magnetic extension to the pole 210860 i.

and thus are exposed to the maximum effect of the magnetic field, which has a favorable effect on the magnetic coagulation of ferromagnetic particles. With this device, purification of circulating waters containing mainly ferric oxide achieves better performance and lower operating costs than using polyelectrolyte intensified sedimentation or chemical coagulation.

An exemplary embodiment of the invention is illustrated in the accompanying drawing, which is a longitudinal axial section of an electromagnetic coagulator.

The electromagnetic coagulator 1 is provided on the ends with flanges 2, which are inserted and fixed in the pipeline. The housing J of the electromagnetic coagulator 2 is made of a non-magnetic, electrically conductive material, for example aluminum, brass, carbon-filled polypropylene and the like, on the surface of which in the selected embodiment two solenoids 1 are inserted.

In the longitudinal axis of the casing J, a spindle ferromagnetic, e.g. for example, brass, aluminum, plastic rings and the like. Also, the surface of the core 3 between the two magnetic extensions 6, 2 is provided with a recess which is similarly filled with a non-magnetic insert 12.

The shoulder portions of the core 3 between the non-magnetic inserts 10, 11, 12 form pole pieces 11, which face the magnetic extensions 6, 2 of the solenoids 6, 3. The housing 1 of the electromagnetic coagulator 2 extends conically from the flanges 2 is larger than the diameter of the pipeline through which the purified water flows in order to maintain the same hydraulic cross-section even when the core 3 is inserted into the flow. The core 3 is connected to one pole 14 and the sheath 2 to the other pole 15 of the power supply.

By connecting the solenoids 4, Z to a DC power source, a magnetic circuit is formed in the electric coagulator 2; the direction of flow of the magnetic field lines is indicated by the arrows in the lower half of the solenoid A and the respective part of the core 3. Water with ferromagnetic particles flowing in the annular gap 16 flows perpendicular to the direction of the magnetic field lines and because solenoids 2, 3 are built in magnetic extensions 6, 2 each forming pole arms 6 ', 6, 2, 1, the purified water passes four times through a magnetic field.

The pole pieces 13 delimited by the non-magnetic liners 20, 11 reduce the dispersion of the magnetic field lines and the non-magnetic liner 12 prevents the ferromagnetic particles from settling on the core 3 between the two solenoids. By applying electrical voltage from the poles 21, 22 ^{to the} core 3 and the 2 ^s ® sheath, it creates an additional electric field in the liquid flowing through the electromagnetic coagulator 2. It is possible to achieve an optimal effect of electromagnetic induction of ferromagnetic particles, their magnetic coagulation and rapid gravitational dropping of these coagulates from the suspension.

Claims (3)

An electromagnetic coagulator in the form of an intermediate pipe spacer provided with at least one solenoid on the periphery, characterized in that the solenoid (4) is housed in a magnetic extension (6) and a ferromagnetic core is inserted in the longitudinal axis of the housing (3) of the electromagnetic coagulator (1). (9) provided with pole pieces (13) and a non-magnetic insert (10), the housing (3) being made of a non-magnetic substance. Electromagnetic coagulator according to claim 1, characterized in that the housing (3) of the electromagnetic coagulator (1) is made of a non-magnetic, electrically conductive substance. Electromagnetic coagulator according to Claims 1 and 2, characterized in that the spindle ferromagnetic core (9) is connected to one pole (14) and the housing (3) of the electromagnetic coagulator (1) to the other pole (15) of the direct current source.