SU1546103A1 - Method of regeneration of packing of electromagnetic filters - Google Patents

Abstract

The invention relates to magnetic filtration of liquid and gaseous media through magnetized ferromagnetic granular packing (H), can be used for its efficient regeneration and allows expanding the field of application with regard to types H, impurities to be deposited and variants of magnetizing systems of electromagnetic filters. For this, N simultaneously impose pulsed magnetic fields generated by two sources of these fields independent of the magnetic and electric circuit, with equal frequency and duration of magnetic pulses and the possibility of alternating different polar and unipolar effects on N. 5 Cpf-ly.

Description

The invention relates to magnetic filtration and can be used in electromagnetic filters designed to extract ferromagnetic impurities from liquid and gaseous media in the chemical, metallurgical industry, mechanical engineering and power engineering.

The aim of the invention is to expand the scope.

Expansion of the field of application of the nozzle regeneration method with respect to nozzle types, for example, when part of the nozzle is made of material with increased coercive force and impurity particles deposited in it due to imposing on the nozzle of pulsed magnetic fields with equal frequency and duration of magnetic pulses and alternating polar and monopolar pny impact on the volume of the nozzle. When a different impact on the volume of the nozzle, opposite to the constant magnetic field during the cleaning period, demagnetization occurs

granules with a low coercive force, since the amplitude of the intensity of the magnetic pulses in this case is equal to their coercive force, and the reorientation of the granules with a larger coercive force, due to the hysteresis moment. The unipolar effect on the nozzle causes it to be in the area of the magnetic cushion created by two sources of pulsed magnetic fields, for example, located opposite each other. At this moment, nozzle granules with increased coercive force again change their position in the volume, and due to the finite size of the sources that generate the floor, ponderomotive forces in the direction of the field gradient act on the nozzle granules and sediment particles particles from the central region of the volume to the periphery. Magnetic cushion between the poles of the sources of the field prevents the capture and retention of the nozzle granules with an increased coercive force of sediment particles

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with

They are removed from the nozzle volume with a washing medium, such as water or an air-mixed mixture, and the particles may have a coercive force that is different from the material of the nozzle granules. the impulses of the contact point of the granules, in which the sediment was localized during the cleaning process, are mixed and fall into the central region of the pore channel, where the hydrodynamic forces acting on the sediment particles are higher, the relative narrowing of the flow area of the channel

The generation of pulsed magnetic fields by two independent magnetic and electric circuit sources is a prerequisite for the implementation of a unipolar effect on the nozzle and at the same time allows the field of application of the method to be extended to options of magnetic systems of electromagnetic filters that can be performed not only in the form of solenoid coils of magnetizing vani, but also in the form of a magnetizing system of the core type

The alternating unipolar and opposite polarity effect on the nozzle is achieved by the fact that one or both pulsed magnetic fields are alternating in intensity, and in the second case the fields are shifted relative to each other by half the pulse duration. Asymmetry of the impulse fields in amplitude of intensity the lower value of the intensity corresponds to the different polarity of the impact on the nozzle and equal to the minimum coercive force of the material of the part of the nozzle, which allows, along with the preservation of demagnetization During the creation of a magnetic pad between the unipolar poles of the field sources, in order to achieve the amplitude of the intensity of the magnetic pulses, the coercive force of the material in the portion of the nozzle with the lowest energy consumption the count y is less than the value of the self-induction EMF arising in the electric coils of the field sources, the frequency of the magnetic pulses is assumed to be 1 5 Hz and the duration is 0.2 1 s

Prier Generation of pulsed magnetic fields is carried out by two sources of fields, including, for example, electrical catmics with cores arranged against each other. The nozzle is mixed between the poles of the sources. Part of the nozzle granules is made of magnetically

0

material with a coercive force Hc of 160 A / m, a friend is made of a magnetically hard material with a coercive force Hc of 4.77 kA / m. Interleaved different and one

the polar effect on the nozzle is achieved by the imposition of pulsed magnetic fields with a pulse frequency of 2 Hz and a duration of 0.2 s, one of which is alternating in strength, and both fields are asymmetric in amplitude in the intensity of pulses. A lower value of the stress corresponds to a different polarity impact on the nozzle and equal to A / m, more equal to H 1 kA / m Particles settled on the nozzle granules are washed away with a stream of regeneration fluid supplied to the middle of the nozzle volume

The proposed method of regeneration of the nozzle of electromagnetic filters allows, in comparison with the prototype, to expand the field of application with regard to types of nozzles, deposited particles and variants of magnetic systems of electromagnetic filters.

Claims (1)

Invention Formula 5 1 Method of regeneration of the nozzle of electromagnetic filters, including the imposition of varying magnetic fields on the nozzle, characterized in that, in order to expand the field of application, the nozzle is simultaneously affected by pulsed magnetic fields with equal frequency and duration of magnetic pulses, and amplitude of voltage no less coercive force of the nozzle, and the application of magnetic fields is carried out with alternation of the polar-polar and unipolar effects 5 put on the nozzle 2 The method according to claim 1, characterized in that the material of the part of the nozzle uses a material with high coercive force 0 3 The method according to claims 1 and 2, characterized in that the pulse frequency is equal to I-5 Hz and a duration of 1-0.2 s, respectively 4 A method according to claim I-3, characterized in that the pulsed magnetic fields are asymmetrical in amplitude of intensity, and 5 a smaller value of intensity corresponds to the influence of the radiation on iaiH and the lower coercive force of the mother 1 ia part of the nozzle 5 Method according to claims 1-4, characterized in that 0 that at least one of the fields is alternating in strength 6. A method according to claims 1-5, characterized in that the pulsed magnetic fields alternating in intensity are shifted in time relative to each other by half the pulse duration.