UA76374C2 - A method for electromagnetic processing liquid and mechanisms for realizing the same - Google Patents

Abstract

A method for electromagnetic processing liquid which method involves passing the liquid flow through the non-magnetic area of pipeline, in which zone the flow is subjected to the influence of magnetic field with intensity gradient which is modified, at that the mentioned magnetic field is formed in such a way that its intensity gradient is modified in the direction being different of flow direction. The flow in the mentioned zone is treated with magnetic field at a frequency of field change of 10-100 kHz and intensity gradient of 5000-25000 A/m. Before the delivery to the mentioned zone the flow is preliminarily passed through additional non-magnetic area of pipeline where it is treated by magnetic field with the frequency of field change of 40-400 Hz and intensity gradient of 5000-10000 A/m. The flow can be additionally subjected to mechanical purification. The cycle can be repeated. A mechanism for the high frequency electromagnetic processing liquid contains electromagnetic system encompassing the area of non-magnetic pipeline, at that electromagnetic system is switched with its inlets to respective outlets of multichannel amplifier, and amplifier outlet is connected to the outlet of generator of complex sinusoidal oscillations. The electromagnetic system is made of two coils orthogonally disposed in the space or in the form of multiphase coil. The mechanism for low frequency processing liquid contains multiphase electromagnetic coil, which encompasses an area of non-magnetic pipeline, at that the mentioned coil is connected by its multiphase inlets to respective outletsof multichannel switch which its turn is connected by its inlets to respective outlets of multichannel amplifier, the inlet of amplifier is connected to outlet of generator. The technical result is in increase of liquid processing efficiency.

Description

Description of the invention

The group of inventions relates to the field of electromagnetic treatment of liquid, and more specifically to 2 electromagnetic treatment of liquid by passing it through at least one non-magnetic section of the pipeline, in the zone of which the flow is affected by a magnetic field with a changing voltage gradient.

The inventions can be applied to the purification of liquids, such as water.

The methods of electromagnetic treatment of liquid, which include the passage of liquid flow through a non-magnetic section of the pipeline, are well known and effective compared to many others, which confirms their wide application.

The closest analog to the proposed invention-method is known from the method of wastewater treatment of galvanic industries | See, for example, the international publication M/O92/19550 dated November 12, 1992|.

The mentioned method of wastewater treatment of galvanic productions includes the creation of a wastewater flow, treatment of this flow with ultrasound, separation of the solid phase formed as a result of treatment, which is carried out in 72 two stages with different frequencies, treatment with ultraviolet light and passing a flow of liquid through a non-magnetic section of the pipeline, in the zone of which the flow is affected by a magnetic field with an intensity gradient in the direction of the flow. At the same time, the voltage gradient is changed from 12,000 to 24,000 A/m.

Treatment with a magnetic field is carried out at least three times.

The disadvantage of this method is the complexity due to the fact that none of the proposed stages of processing by itself allows to achieve the required efficiency of cleaning the liquid.

As can be seen from the fact that magnetic field processing is carried out at least three times - the method of this processing is of great importance. However, due to the creation of a magnetic field with an incorrectly oriented voltage gradient (along the movement of the flow), the effectiveness of this method of electromagnetic processing is reduced to a minimum. with

The basis of the first invention is the task of improving the known method of electromagnetic treatment (39 liquids, which includes passing a flow of liquid through a non-magnetic section of the pipeline, in the zone of which the flow is affected by a magnetic field with a changing intensity gradient, by creating such a magnetic field that its intensity gradient changed in a direction different from the direction of the flow, which will allow to significantly increase the efficiency of the electromagnetic treatment of the liquid

It is expedient when in the mentioned zone the flow is processed by a magnetic field with a field change frequency of 10-100kHz and a voltage gradient of 5000-25000A/m.

The efficiency increases several times when, before entering the mentioned zone, the flow is first passed through an additional non-magnetic section of the pipeline, where it is treated with a magnetic field with a frequency of 40-400 Hz and a voltage gradient of 5000-10000 A/m. 325 It is even better when the flow is additionally subjected to the action of a permanent magnetic field.

To achieve the full effect, the flow is additionally subjected to mechanical cleaning.

After mechanical cleaning, the cycle can be repeated.

Closest to the second proposed invention "Device for high-frequency electromagnetic "liquid processing" is the device for electromagnetic liquid processing, which is known from patent 5 4865747, publ. From 70 on 12.09.1989. c The well-known device for electromagnetic treatment of liquid consists of a tank in the form of a main pipe c

From" insulating material with an electrically conductive liquid intended for ion purification, which has the form of a short-circuited electric circuit around a magnetic circuit located along the axis of the tank, in which an alternating operating magnetic flux is created in the axial direction of the tank with the help of working coils with an alternating current. 7 As indicated above, the creation of a magnetic field with an intensity gradient that changes in the direction of movement

Gee! flow is inefficient.

The basis of the second proposed invention is the task of improving a known device for electromagnetic treatment of a liquid in such a way that it allows processing a flow with a magnetic field with a frequency of 20 field changes of 10-100 kHz and a voltage gradient of 5000-25000A/m, which changes in a direction different from from the flow direction.

T" The problem is solved by the fact that in a known device for electromagnetic treatment of a liquid containing an electromagnetic system covering a section of a non-magnetic pipeline, according to the invention, the electromagnetic system is connected by its inputs to the corresponding outputs of a multi-channel switch, which in turn is connected by its inputs to of the corresponding outputs of the multi-channel amplifier, input

GF) of the amplifier is connected to the output of the generator.

In the simplest version, the electromagnetic system is made in the form of two coils orthogonally located in o space, which are adapted to apply vibrations to them, which are shifted in phase relative to each other by 905.60. In an alternative version, the electromagnetic system is made in the form of a multiphase coil. This makes it possible to achieve a more correct shape of the magnetic field and, as a result, better processing efficiency.

Closest to the third proposed invention "Device for low-frequency electromagnetic treatment of liquid" is the device for electromagnetic treatment of liquid, which is known from patent KO 2176620, publ. 12.10.2001. Because a known device for low-frequency electromagnetic treatment of a liquid contains a multiphase electromagnetic coil covering a section of a non-magnetic pipeline. Inside the multiphase coil is a core connected to a rectifier, which consists of semiconductor valves (diodes) mounted on insulators on the core. The ends of the core winding are connected to a rectifier, the output of which is connected to the

Ivolators on both ends of the core with current-conducting, non-insulated from electrical contact with the processed liquid electrode plates. The core is fixed.

The main disadvantage of this device is that it cannot be used to create a magnetic field in such a way that the gradient of its intensity changes in a direction different from the direction of the flow.

In addition, the presence of a core reduces its safety and does not allow the use of voltages higher than 368. 70 The third proposed invention is based on the task of improving a known device for electromagnetic processing of a liquid in such a way that it allows processing a flow with a magnetic field with a field change frequency of 40-400 Hz and a gradient voltage of 5000-10000A/m, which changes in a direction different from the direction of the flow.

The problem is solved by the fact that in a known device for low-frequency electromagnetic processing of 7/5 liquid, which contains a multiphase electromagnetic coil covering a section of a non-magnetic pipeline, according to the invention, the said coil is connected with its multiphase inputs to the corresponding outputs of a multichannel switch, which in turn is connected its inputs to the corresponding outputs of the multi-channel amplifier, the input of the amplifier is connected to the output of the generator.

It is convenient when an annular permanent magnet is additionally installed at the entrance of the mentioned section of the pipeline.

The essence of the group of inventions is explained by the drawing, where:

Fig. 1 - Scheme of the first example of the implementation of the method with a device for high-frequency electromagnetic treatment of liquid, which is connected by a section of the pipeline with a filter for mechanical cleaning.

Fig. 2 - Device for high-frequency electromagnetic treatment of liquid in the simplest version.

Fig. 3 - Scheme of the third example of the implementation of the method with devices for low-frequency and high-frequency electromagnetic liquid treatment, a filter for mechanical cleaning, a pump and an auxiliary pipeline.

The first implementation example. (8)

The flow of river water was passed through the non-magnetic section 1 of the pipeline 2, in the zone of which the flow was influenced by a magnetic field with a gradient of intensity that changed in a direction different from the direction of the flow. The magnetic field in the mentioned flow zone was created with the help of device C for high-frequency electromagnetic processing of liquid, which provides a change in the field frequency of 10-50kHz, a voltage gradient of 5000-10000A/m.

In the simplest version, device C for high-frequency electromagnetic treatment of liquid contained - an electromagnetic system covering section 1 of a non-magnetic pipeline 2. The electromagnetic system C is made in the form of two coils 4 and 5 located orthogonally in space, which are connected by their inputs to the corresponding outputs of the multi-channel amplifier 6 , and the input of the amplifier 6 is connected to the output of the generator 7 d)

From complex non-sinusoidal oscillations. Coils 4 and 5 of the electromagnetic system are adapted to provide them with oscillations that are phase-shifted relative to each other by 909

After treatment with a magnetic field, the flow was passed through a mechanical filter 8, connected by means of an intermediate section 9 of the pipeline 2 to the device C for high-frequency electromagnetic treatment of the liquid.

Metal salts precipitated during electromagnetic treatment and settled in the filter. "

The second implementation example. шщ с They passed a flow of water polluted by the effluents of a metallurgical plant through a non-magnetic section of the pipeline, and in the zone of which the flow was affected by a magnetic field with a gradient of intensity that changed in a direction different from the direction of the flow. The magnetic field in the mentioned flow zone was created using of a device for high-frequency electromagnetic treatment of liquid, which provides the following parameters: field change frequency 50-100kHz, voltage gradient 5000-25000A/m. -and The device for high-frequency electromagnetic treatment of liquid contained an electromagnetic system covering a section of a non-magnetic pipeline. The electromagnetic system is made in the form of multiphase coil, which is connected with its inputs to the corresponding outputs of the multichannel amplifier, and the input of the amplifier d) is connected to the output of the generator of complex non-sinusoidal oscillations.

Metal salts precipitated during electromagnetic treatment and settled in the company's clarifier. - The third implementation example.

Ta" The flow of polluted river water was passed through the first (additional) non-magnetic section 10 of pipeline 2, in the zone of which the flow was first influenced by a constant magnetic field, and then by a magnetic field with a gradient of intensity that changed in a direction different from the direction of the flow.

A permanent magnetic field was created using a permanent ring magnet 11 installed at the entrance to the first section 10 of the non-magnetic pipeline 2. iF) A magnetic field with a voltage gradient changing in a direction different from the direction of the flow was created using a device 12 for low-frequency electromagnetic processing liquid, providing the following parameters: field change frequency 40-400Hz, voltage gradient 5000-10000A/m. The device 12 for low-frequency electromagnetic treatment of liquid contained a multi-phase electromagnetic coil 13, covering a section 10 of a non-magnetic pipeline 2. The coil 13 is connected by its multi-phase inputs to the corresponding outputs of the multi-channel switch 14, which in turn is connected by its inputs to the corresponding outputs of the multi-channel amplifier 15, input of the amplifier 15 is connected to the output of the generator 16. During the low-frequency electromagnetic treatment of the liquid, the direction of rotation b5 of the electromagnetic field was changed using the switch 14. The flow of liquid was passed through the second (main) non-magnetic section 1 of pipeline 2, in the zone of which the flow was influenced by a magnetic field with a gradient of intensity that changed in a direction different from the direction of the flow.

The magnetic field in the mentioned flow zone was created using the device C for high-frequency electromagnetic treatment of liquid, which provides the following parameters: field change frequency 10-100kHz, voltage gradient 5000-25000A/m.

Device C for high-frequency electromagnetic treatment of liquid contained an electromagnetic system covering section 1 of a non-magnetic pipeline. The electromagnetic system is made in the form of a multiphase coil, the inputs of which are connected to the corresponding outputs of the multichannel amplifier b, and the input of the amplifier 6 is connected to the output of the generator 7 of complex non-sinusoidal oscillations. 70 After treatment with a magnetic field, the flow was passed through a mechanical filter 8, which is connected by means of an intermediate section 9 of the pipeline 2 to the device C for high-frequency electromagnetic treatment of liquid.

The flow cleaned of mechanical impurities was again fed to the entrance to the first section 10 of the non-magnetic pipeline and the sequence of actions described above was repeated. The supply was provided by means of an auxiliary section 17 and a pump 18. The sections are connected by means of flanges 19 in a known manner. With the application of several /5 CYCLs of multi-stage purification, the water acquired drinking qualities.

Experiments showed that, compared to known methods, the efficiency of liquid treatment increased several times.

Claims (11)

The formula of the invention 1. A method of electromagnetic treatment of a liquid, which includes passing a flow of liquid through a non-magnetic section of the pipeline, in the zone of which the flow is affected by a magnetic field with a changing intensity gradient, which is characterized by the fact that the mentioned magnetic field is created in such a way that its intensity gradient is Changes in a direction other than the flow direction. 2. The method according to claim 1, which differs in that in the mentioned zone the flow is treated with a magnetic field with a frequency (o) of changing the field of 10-100 kHz and a voltage gradient of 5000-25000 A/m. Q. The method according to claim 2, which differs in that, before being fed into the mentioned zone, the flow is previously passed through an additional non-magnetic section of the pipeline, where it is treated with a magnetic field with a field change frequency of 40-400 Hz and a voltage gradient of 5000-10000 A/m . 4. The method according to claim 3, which differs in that the flow is additionally exposed to the action of a permanent magnetic field. and - 5. The method according to any of claims 1-4, which is characterized by the fact that the flow is additionally subjected to mechanical cleaning. co 6. The method according to claim 5, which differs in that after mechanical cleaning, the cycle is repeated. 7. A device for high-frequency electromagnetic treatment of a liquid, which contains an electromagnetic system that |se) C5 Covers a section of a non-magnetic pipeline, which is distinguished by the fact that the electromagnetic system is connected to the corresponding outputs of a multi-channel amplifier with its inputs, and the input of the amplifier is connected to the output of the generator of complex non-sinusoidal fluctuations 8. The device according to claim 7, which is characterized by the fact that the electromagnetic system is made in the form of two coils orthogonally located in space, which are adapted to apply vibrations to them, which are shifted by " 20 phase relative to each other by 902, with 9. The device according to claim 7, which differs in that the electromagnetic system is made in the form of a multiphase coil. :with" 10. A device for low-frequency electromagnetic treatment of a liquid, which contains a multi-phase electromagnetic coil covering a section of a non-magnetic pipeline, which is characterized by the fact that the said coil is connected with its multi-phase inputs to the corresponding outputs of a multi-channel switch, which in turn is connected with its inputs to the corresponding outputs multi-channel amplifier, the input of the amplifier is connected to the output of the generator. Me 11. The device according to claim 10, which differs in that an annular permanent magnet is installed at the entrance of the mentioned section of the pipeline. - 50 GT" (F) ko bo b5