EA003379B1 - Method of protection and cleaning of surfaces of ferromagnetic materials from sediments - Google Patents

Abstract

1. A method of protection and cleaning surfaces of ferromagnetic materials from sediments, wherein influence of steam, thermal, water-heating equipment on ferromagnetic surface by pulsed magnetic field creation magnetostriction of effect, characterized in that, at the same time with magnetostriction effect, magnetic treatment of water is implemented on the supply pipeline of equipment by pulsed magnetic field, wherein pulsed magnetic field for magnetostriction effect and magnetic treatment of water is created due to influence of pulse burst with frequency of 0.1-10Hrz. 2. A method according to claim 1, characterized in that the pulsed magnetic field is created by different polar pulse burst.

Description

The invention relates to the field of protection and cleaning of the surface of ferromagnetic materials from deposits and can be used to protect and clean the internal heating surfaces of water heaters and / or steam and / or hot water boilers from scale by electromagnetic fields.

There is a method of magnetic treatment of a fluid, including the impact on the fluid flow transverse magnetic field created by the magnetic system, which is moved in the direction perpendicular to the direction of movement of the liquid and the direction of the magnetic field lines. (see ed.St. USSR № 1537647, cl. C 02P 1/48, from 06.26.84).

However, the known method cannot ensure proper descaling of the internal surfaces of the steam, heat exchange and water-heating equipment, since it provides for only magnetic water treatment.

The technical essence closest to the present invention is a method of protecting and cleaning the surface of ferromagnetic materials from deposits, which consists in exposing the ferromagnetic surface to steam and / or thermal and / or water heating equipment with a pulsed electromagnetic field to create the magnetostriction effect. The method of cleaning the surface of heat exchangers from a ferromagnetic material is that the surface to be cleaned is exposed to an alternating magnetic field, causing the effect of magnetostriction.

When the alternating magnetic field decreases from the value of the saturation induction to the value of the residual induction due to the difference in the values of the induction saturation and the residual induction, a magnetostriction effect occurs, i.e. periodic expansion and contraction of the surface. In the ferromagnetic material are longitudinal vibrations (see ed.St. USSR № 1542646).

The disadvantage of this method is to limit its use only for cleaning surfaces, as well as the complexity of the technical implementation of the method.

The technical result of the invention is the provision in the process of protecting and cleaning the surface of ferromagnetic materials from deposits of complex exposure by magnetic treatment of water before it enters the steam and / or heat exchange and / or water-heating equipment and create the effect of magnetostriction on its working surfaces due to the impact of pulsed electromagnetic fields generated by bursts of pulses.

This is achieved by the fact that in the method of protecting and cleaning the surface of ferromagnetic materials from deposits, consisting in acting on the ferromagnetic surface of the steam and / or thermal and / or water heating equipment with a pulsed electromagnetic field to create the magnetostriction effect, according to the invention, simultaneously with the magnetostriction effect magnetic treatment of water in the supply pipeline of the equipment with a pulsed electromagnetic field, and a pulsed electromagnetic field for the magnetostriction effect and magnetic treatment of water is provided by a feedback pulse train with a frequency of 0.1-10 Hz, in addition pulsed electromagnetic field is produced in batches of pulses of different polarities.

The essence of the invention lies in the fact that the equipment enters the water, pre-processed in the supply pipeline. This magnetic water enhances the effect on the internal surface of the equipment, which is simultaneously exposed to magnetostriction.

It turns out the super-total effect of two types of effects, and it is enhanced by the impulse effect of bursts of pulses.

Comparison of the proposed method with the closest analogue suggests the novelty of the criterion, and the lack of distinctive features in the analogs indicates the criterion of an inventive step.

Preliminary tests confirm the possibility of widespread industrial use.

The method of protecting and cleaning the surface of ferromagnetic materials from deposits consists in exposing the ferromagnetic surface to steam and / or hot water and / or thermal equipment with a pulsed electromagnetic field to create the magnetostriction effect. At the same time, a pulsed electromagnetic field is used to carry out electromagnetic treatment of water on the supply pipe of equipment to reduce scale formation, and protection and purification is carried out at facilities during operation.

A feature of the invention is that a pulsed electromagnetic field for the effect of magnetostriction and magnetic treatment of water is created due to the effect of pulse packets with a frequency of 0.1-10 Hz.

On each protected equipment for the entire period of operation several groups of electromagnetic devices are installed to create pulsed electromagnetic fields. One group of electromagnetic devices serves for magnetic treatment of water in order to reduce scale formation and is installed on the supply pipe of a boiler or heat exchanger. Another group of electromagnetic devices is installed on the heating surfaces of the same boilers through thermal insulation valves to create the effect of magnetostriction. As a result, crushing, exfoliation, partial transformation into a creamy mass of scale salts and partial dissolution of it with magnetized water occurs, which allows to remove it in the process of purging and draining.

Such an organization of complex effects on each protected steam, heat power and heat exchange equipment of a heat and power object allows cleaning the heating surfaces of this equipment and preventing further scale formation during the entire period of operation.

FIG. 1 shows a device for implementing the proposed method; in fig. 2 timing charts of pulses.

The device contains controlled rectifying devices 1, 2 and electromagnets 3, 4.

The electromagnet 3 is installed on the supply pipe of the boiler or heat exchanger 5 and serves for the magnetic treatment of water. Electromagnet 4 is designed to create the effect of magnetostriction on heating surfaces and is installed on protected surfaces of a boiler or heat exchanger 5. The number of electromagnets is determined by the number of protected heat and power and heat exchange equipment in one boiler room, CTN. The electromagnets are powered from a single-phase AC network through controlled rectifying devices. Electromagnets are installed on pipelines and surfaces to be cleaned, made of ferromagnetic materials. This combination of features makes it possible not only to clean the surface, but also to treat the water with magnetic fields to protect the heating surfaces from scale.

As a source of pulsed electromagnetic field, you can use the electromagnetic pulsator TU RB 99009425.001-99.

The device works as follows.

Alternating current of industrial frequency using controlled rectifying devices is converted into packs of pulsed current with a frequency of 0.1 - 10 Hz and fed to electromagnets, which convert them into pulsed magnetic fields, under the influence of which magnetic water treatment occurs in the pipelines, and on the cleaned heating surfaces magnetostriction effect.

Magnetic treatment of water and the subsequent creation of the effect of magnetostriction protects equipment from scale deposits and sludge.

The magnitude of induction B on the cleaned heating surfaces can reach 100 mt. As a result, the salt is crushed and dissolved in magnetized water, which significantly reduces the intensity of their growth on the working surface of the heat exchangers and further protects the equipment from scale.

The effect of magnetostriction can be enhanced by the effects of bipolar bursts.

Thus, the proposed method implements the technical problem.

Claims (2)

1. A method of protecting and cleaning the surface of ferromagnetic materials from deposits, which consists in exposing the ferromagnetic surface to steam and / or thermal and / or water-heating equipment with a pulsed electromagnetic field to create a magnetostriction effect, characterized in that the water is magnetically treated simultaneously with the magnetostriction effect on the equipment supply line by a pulsed electromagnetic field, and a pulsed electromagnetic field for the effect of magnetostriction and magnetic treatment in s is provided by a feedback pulse train with a frequency of 0.1-10 Hz. 2. The method according to claim 1, characterized in that the pulsed electromagnetic field is generated by multipolar bursts of pulses.