SU465220A1 - Apparatus for treating liquids, gases and mixtures thereof with a magnetic field - Google Patents

Description

one

The invention relates to magnetic-zero devices for treating liquids, gases, and mixtures thereof, and can be used in reactors of the oil refining and petrochemical industries to activate any liquid or gaseous reactant entering the reactor. The processing can be carried out using oil feedstock, water and a water deposit, various absorbents, heat carriers, and so on.

A device for the magnetic treatment of liquids is known, which comprises a housing, a magnetic circuit located in it, with ring magnets magnetized along a cylindrical generator and facing each other with the same poles.

However, in the known device, magnetic fields are ineffectively used, due to the small magnitude of the field gradient

„DN,

(derivative)

on traffic control

processing medium.

In order to increase the efficiency of magnetic treatment, the magnetic conductors are made in the form of plates with holes, conic concentrators are arranged coaxially, and are arranged in parallel rows, and the distance between the two magnetic cores is chosen in proportion to

0, Ш I 0,5D, where D is the internal diameter of the magnets.

The distance between the magnetic cores and the angle and the taper of the concentrators are selected from the condition of obtaining the maximum lead. dN grades of the derivative (the gradient of the magic field) in the direction of the Z axis of the working cavity. Inside the working cavity there is a rod made of non-magnetic material.

To obtain the maximum value

“DN N-Derivative Magnets are mounted on

optimal distance to the axis. Provided

0.4 -5 0.8 and 0.3 0.6 magnitude

per / is determined by the ratio: 0.3ft / 0.8 / g,

where - internal and external radii

ring magnet, h is the height of the magnet.

In all other cases, the value of / is determined by the relation:

0, / / or 0.11), 5Z).

It should be noted that the installation of a magite conductor with a co-hub of the magnetic floor requires an adjustment of the distance.

The taper angle of the concentrators (usually in the range of 35-45 °) is also chosen from the condition of obtaining the maximum value of the derivative dH / dZ.

The radius of the concentrator g is less than the inner radius Ri of the magnet, and a decrease in the radius of the concentrator will lead to an increase. dN

the magnitude of the derivative — and, consequently, the intensification of the magnetic treatment — however, the hydrodynamic resistance of the device will noticeably increase.

The installation of an axial non-magnetic rod inside the working cavity of the device increases the efficiency of the magnetic treatment, since in this case the treated medium will flow through the zones with an increased value of the magnetic field gradient.

FIG. 1 shows the proposed device for treating liquids, gases and mixtures thereof with a magnetic field, longitudinal section; in fig. 2 is a section along A-A in FIG. one.

The device contains a non-magnetic body 1, magnetized lines 2 installed in parallel, in the grooves of which there are annular axially magnetized magnets 3 (or electromagnets). The magnetic cores 2 are made with conical concentrators 4, which form a magnetic field in the working cavities and in the additional working cavities B. Non-magnetic rods 5 and B are axially mounted in the axes.

Between the magnetic circuit. 2 installed

gaskets 6 with thermoregulators (not shown in drawing 5). The device case 1 can

to be supplied with ter;

The device works as follows. A liquid, gas or gas-liquid mixture O is passed through the working cavity B and C of the device through zones with a higher value of the derivative dH / dZ, due to which a more effective magnetic effect on the medium being processed is carried out. five

Subject invention

A device for treating liquids, gases, and mixtures thereof with a magnetic field, comprising a housing, a magnetic circuit arranged in it with ring magnets magnetized along a cylindrical generator and facing each other with the same poles, characterized in that

5 to increase the efficiency of magnetic processing, the pipelines are made in the form of plates with holes, which are conical concentrators coaxially arranged and arranged in parallel rows, and the distance between two magnetic cores / is chosen in relation to:

0, W / 0.5D where D is the internal diameter of the magnets.

.