SU1346584A1 - Device for magnetic treatment of aqueous systems - Google Patents

Abstract

The invention relates to the magnetic activation of aqueous systems, can be used, for example, in coal industry and allows for increased processing efficiency. The device contains annular permanent magnets placed in a diamagnetic case, separated by washers made of a magnetically soft material, facing each other by poles of the same name, and the magnets are different in height with a ratio of heights of 1: 5 and installed along the length of the apparatus in alternate order, with The magnets are located at the entrance of the device with a lower height, 1 sludge. with 4 05 SP oo "

Description

The invention relates to the magnetic activation of aqueous systems and can be used, for example, in the coal industry to inject water into a coal seam for the purpose of degassing it.

The aim of the invention is to increase the efficiency of the magnetic treatment of aqueous systems.

The drawing shows the proposed device, a longitudinal section.

The device contains alternating ring permanent magnets | and 2, assembled in a pole by opposite poles and separated by washers made of magnetically soft material 3. The height of the annular permanent magnets 1 is less than five times the height of the magnets 2. At the device inlet and outlet there are smaller in height magnets 1. The columns of permanent magnets 1 , 2 and washers 3 form a straight channel through which the fluid passes. The magnets are placed in a zipindric body 4 of a non-magnetic material and are held in it by nozzles 5 screwed onto the ends of the body.

The device works as follows.

Due to the presence of permanent magnets with different linear dimensions along the axis of the device, magnetic fields are formed with different directions and lengths of lines of force, and consequently, with different energy of the magnetic field. The magnetic field of the magnets 2, whose field energy is five times greater than that of magnet 1, bends the magnetic field lines of magnet I. In this case, the intensity vector of the magnetic field of magnet 1 changes its direction.

The magnitude of the magnetic field across the entire cross section of the device is the same, since magnets made of a single ferrite ferrite are installed in the device.

As the device passes through the channel of the water, it passes through the magnetic fields, and the force exerted by the magnetic field on the flow of the treated liquid makes it possible to increase the efficiency of its treatment. At the entrance and exit of the device magnets are installed with a lower height, because otherwise

case, when the device exits the device, it passes through a zone whose magnetic field lines are directed almost parallel to the flow

liquid to be treated. As a result, the effect of magnetic water treatment is reduced.

The described mechanism of magnetic treatment of aqueous systems in the proposed device is confirmed by the results of laboratory experiments. As a criterion of the effectiveness of magnetic water treatment, the magnitude of water absorption of coal is used. The greatest effect of increasing the water absorption of coal (15%) is achieved by treating water in the device with a 1: 5 ratio of permanent magnets and magnets with a lower height located at the inlet and outlet of the device. This is 7% more than when using a device with a 1: 1 magnet ratio, and 4% more than a 1: 5 ratio of magnets and located at the input and output of the device with higher magnets.

Claims (1)

Invention Formula A device for magnetic treatment of water systems, comprising a cylindrical diamagnetic case, ring permanent magnets located inside it, separated by washers made of a magnetically soft material, and facing each other with the same poles, characterized in that, in order to increase the efficiency of magnetic treatment of water systems, annular Permanent magnets are made different in height with a ratio of heights of 1: 5 and are installed along the length of the apparatus in alternate order, with the device at the input and output of the device lower height with rot; Editor N. Gunko Compiled by O. Simonenko Tehred M. Khodanich Proofreader A. Zimokosov Order 5088/22 Circulation 850 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4