SU1088796A1 - Magnetic flocculator - Google Patents

Abstract

MAGNETIC FLOATER, including magnetic system of magnetizing coils with cores installed with gaps, and tubular working fluid pipelines placed in gaps between cores. characterized in that, in order to improve the efficiency of the flocculation process by reducing the speed and turbulence of the fluid flow after magnetic treatment, each working fluid pipe is provided with a diffuser made in the form of a truncated cone and installed at the outlet of the working fluid conduit, and an additional tubular fluid wire; installed after the diffuser in the direction of movement of the liquid, with this the diameter of the additional liquid pipe is not less than 2.5 times the diameter of the working liquid pipe, and the angle of expansion of the diffuser is (L 10-20. 00 00: o 05

Description

The invention relates to mineral processing and can ⁴ be used to reduce scale formation in heat exchange equipment.

A device is known for magnetic pulp processing, including a non-magnetic pipeline and an electromagnetic system consisting of a number of coils fl] mounted on the pipeline. The disadvantage of the device is the low efficiency of the magnetic processing process.

The closest in technical essence and the achieved result to the proposed one is a magnetic flocculator, including a magnetic system of magnetization coils with cores installed with gaps, and tubular liquid pipelines located in the gaps between the cores [2].

The disadvantage of this device is the low efficiency of the flocculation process due to the destruction of flocculation seed crystals after magnetic treatment.

The purpose of the invention is to increase the efficiency of the flocculation process by reducing the bone flow rate after magnetic treatment

This goal is achieved by the fact that in a magnetic flocculator that includes a magnetic system of magnetization coils with cores installed with gaps and tubular fluid pipes located in the gaps between the cores, each working fluid pipe is equipped with a diffuser made in the form of a truncated cone and installed at the output of the working fluid pipe, and an additional tubular fluid pipe installed after the diffuser in the direction of fluid movement, while the diameter of the additional fluid pipe is not less than it is 2.5 times larger than the diameter of the working zhidkosteprovoda, and the angle of expansion cone is 10-20.

The drawing shows the proposed magnetic flocculator, General view.

The magnetic flocculator comprises a working tubular channel 1, a magnetic system consisting of magnetization coils 2 with cores 3, a diffuser 4 with an expansion angle of oC = 10-20 and an additional liquid pipe 5.

VNIIIPI Order 2760/6 Circulation 535 Subscription Branch PPP ’’ Patent **, Uzhhorod, st. Design, 4 efza liquid

The proposed device operates as follows.

The liquid passes through the channels 1. When passing through a channel section located in the gap between the cores 2, the liquid is exposed to the magnetic field created by the coils 3, then through the diffuser 4 with an expansion angle o (. Enters the additional fluid pipe 5. The direction of fluid movement is shown by arrows .

To justify the expansion angle of the diffuser with <= 10-20 °, two series of experiments were carried out in which water was subjected to magnetic treatment with a total hardness of 6-7 mEq / l in a tubular working channel with an internal diameter of 3 mm.

The first series of experiments is carried out without a diffuser (i.e., X. = 0). Moreover, the processing efficiency is - 43-47%.

The second series of experiments was carried out at various equal to 10, 20, 90, 180 ° and the diameter of the additional liquid pipe 9 mm.

The optimum angle of expansion is c4 = 10- ^ 0 °, at which the processing efficiency increases by 1.21.3 times compared with the efficiency without a diffuser.

The choice of the ratio d ^ / d ^> 2.5 is due to the following.

The dependence of the efficiency of the flocculation process on V / V is investigated, where V is the flow rate of the treated water in the working channel, corresponding to the maximum efficiency * .V is the flow velocity of the water after magnetic treatment. The research results show that when V / V ^ 2.5, the processing efficiency increases by 1.2-1.3 times (the condition V> V is achieved using a confuser with a narrowing angle of 20 °, and the condition V <V - diffuser with an expansion angle of 20). In the proposed magnetic flocculator, the condition V / V * 2.5 is realized at d ^ = 2.5d.

The use of an additional liquid pipe, the diameter of which is not less than 2.5 times greater than the diameter of the working channel, and the use of a diffuser with an expansion angle of 10–20 ° helps to stabilize and increase flocculation seed centers due to a decrease in the speed and turbulization of the flow.

Claims (1)

MAGNETIC FLOCULATOR, comprising a magnetic system of magnetization coils with cores installed with gaps, and tubular working fluid pipelines located in the gaps between the cores, characterized in that, in order to increase the efficiency of the flocculation process by reducing the speed and turbulization of the fluid flow after magnetic treatment, each working fluid pipe is equipped with a diffuser made in the form of a truncated cone and installed at the outlet of the working fluid pipe, and an additional tubular fluid pipe gadfly established after the diffuser in the direction dvizheniya.zhidkosti, wherein the additional zhidkosteprovoda diameter not less than 2.5 times the diameter of the working zhidkosteprovoda and diffuser expansion angle is 10-20 °. SU a »1088796 1 1088796