RU171986U1 - DEVICE FOR WATER TREATMENT BY ELECTRIC AND MAGNETIC FIELDS - Google Patents

Abstract

The utility model relates to the field of water treatment and can be used to activate water for agricultural needs, and can also be used in other areas related to the biotechnological use of water and various solutions based on it for the production of liquids with enhanced biologically active properties. A device for treating water with electric and magnetic fields, containing a conduit with an electric and magnetic treatment section by means of polarizing electrodes and inductors, further comprises a housing in which a control signal setting unit is placed, connected to an electric field regulator and to a magnetic field regulator, the pipe has a circular cross section, contains sequentially installed electric processing section and magnetic processing section; the electrical processing section is made of dielectric material, contains a cathode made in the form of an annular insert of non-magnetic non-corroding metal, and an anode including N wire-connected electrodes made in the form of graphite rods mounted in a plane perpendicular to the direction of water flow radially relative to the surface the pipes in the through holes by means of a tight connection, the anode and cathode of the electric processing section are connected to the electric field controller; the magnetic processing section is made of non-magnetic material, contains 2N inductors with cores located in pairs along the pipe surface, the cores of each pair of coils are symmetrical and parallel to the generatrix of the cylindrical surface of the pipe on which the corresponding electrode is located, inductors are connected in parallel and connected to the magnetic field controller . Effect: obtaining biologically active water with a given structure.

Description

The utility model relates to the field of water treatment and can be used to activate water for agricultural needs, and can also be used in other areas related to the biotechnological use of water and various solutions based on it for the production of liquids with enhanced biologically active properties.

The well-known "Installation for water treatment" (patent for utility model of the Russian Federation No. 146830, IPC C02F 1/48 (2006.01), publication year 2014). The installation includes a water tank, a distiller, electrodes, a high voltage generator, an electric motor and a ferromagnet. The ferromagnet is located in close proximity to the surface of the water and is made in the form of a ferromagnetic disk with the possibility of rotation from an electric motor connected to an adjustable power source.

The disadvantage of this installation is the inability to process water in a continuous stream, which complicates its use on an industrial scale, when the need for treated water is great.

It is known “Device for magnetic treatment of water in a stream” (patent for utility model of the Russian Federation No. 93080, IPC C02F 1/48 (2006.01), publication year 2010). The device comprises a housing made of ferromagnetic material, which acts as a closing magnetic circuit. A cassette of magnetic material is installed in it and an even number of pairs of identical rectangular magnets are fixed on it, forming oppositely directed magnetic induction vectors in the working channel intended for the passage of the processed fluid. Adjacent pairs of magnets are installed with an interval equal to the length of the sides of the magnets facing the working channel with opposite poles. Along the working channel, a tube of non-magnetic material is installed in the casing to pass the treated water.

The disadvantage of this device is the inability to carry out water treatment with an electric field. This significantly reduces the processing efficiency, since with the integrated use of the magnetic and electric fields, the physicochemical properties of water are significantly improved.

Closest to the proposed technical solution is a device for treating water with electric and magnetic fields, taken as a prototype (patent for the invention of the Russian Federation No. 2543738 "Method for the simultaneous treatment of water with electric and magnetic fields and a device for its implementation", IPC C02F 1/46 (2006.01) , year of publication 2012). The specified device contains two oscillatory circuits located so that the inductance of the first circuit is located between the plates of the capacitor of the second circuit, and the inductance of the second circuit is located between the plates of the capacitor of the first circuit, and the rectified impulse voltages supplied to the circuits have a frequency equal to the frequency of natural oscillations of the circuits, and are shifted in phase at an angle of 90 degrees, while the inductances are planar coils having inter-turn gaps, and the planes of the coils parallel to the plates of the capacitor.

The disadvantage of this device is the inability to obtain biologically active water suitable for agricultural needs.

The technical result of the proposed device is to obtain biologically active water that increases the germination of seeds.

This result is achieved due to the fact that the device for treating water with electric and magnetic fields, containing a water pipe with a section of electric and magnetic processing by means of polarizing electrodes and inductors, additionally has a housing in which a control signal setting unit is placed, connected to the electric field regulator and with a magnetic field regulator, while the pipe has a circular cross section, contains sequentially installed section of the electrical processing and the section of magnetic processing; the electrical processing section is made of dielectric material, contains a cathode made in the form of an annular insert of non-magnetic non-corroding metal, and an anode including N wire-connected electrodes made in the form of graphite rods mounted in a plane perpendicular to the direction of water flow radially relative to the surface the pipes in the through holes by means of a tight connection, the anode and cathode of the electric processing section are connected to the electric field controller; the magnetic processing section is made of non-magnetic material, contains 2N inductors with cores arranged in pairs, the cores of each pair of coils are symmetrical and parallel to the generatrix of the cylindrical surface of the pipe on which the corresponding electrode is located, the inductors are connected in parallel and connected to the magnetic field controller.

In FIG. 1 shows a diagram of the inventive device, FIG. 2 is a cross-sectional view of an electric processing section; FIG. Figure 3 shows the images of bioelectrograms of biological fluid (cucumber juice) (Fig. 3a), source water (Fig. 3b), and biologically active water (Fig. 3c).

The following notation is introduced in the drawings. Solid thickened arrows show the movement of the source water through the water pipe from site to site as it is being processed, as well as the final product of treatment (biologically active water). Solid thin lines correspond to the direction of control actions during water treatment, as well as the electrical connections of the elements of the device. A device for treating water with electric and magnetic fields contains a housing (not shown in the drawing) in which a control signal setting unit 1 is connected, connected to an electric field regulator 2 and to a magnetic field regulator 3 and a water conduit. The housing provides electromagnetic shielding and protection against mechanical damage. The pipe has a circular cross-section, consists of an electric processing section 4 and a magnetic processing section 5 installed sequentially one after another in the direction of water movement. The electric processing section 4 and the magnetic processing section 5 are made with the possibility of separation for replacement, commissioning or repair. The electric processing section 4 is made of dielectric material (nylon, teflon, polypropylene), contains a cathode and anode. The cathode 6 is made in the form of an annular insert of non-magnetic non-corrosive metal in water and has direct contact with water. The anode includes N electrodes 7 connected by a wire 8 with an electric field regulator 2 installed in a plane perpendicular to the direction of water movement radially with respect to the pipe surface in the through holes hermetically, ensuring that each electrode 7 is in contact with water. The electrodes 7 are made in the form of rods of graphite with a purity of at least 99.9%. The number of electrodes N is determined by the design conditions of their placement on the pipe (pipe diameter and electrode diameter). In this case, the specific number of electrodes involved in the processing 7 is determined by the properties of the biological fluid, which is selected as a sample, and is set by connecting the wire 8 to the required number of N installed electrodes. In FIG. 1 and FIG. 2 shows the inventive device with the number of electrodes N = 6. The electrodes 7 (anode) and the cathode 6 of the electric processing section 4 are connected to the electric field controller 2. The magnetic processing section 3 is made of non-magnetic material (bronze, stainless steel, propylene), contains 2N inductors 9 with cores 10. Cores 10 can be made , for example, from ferrite, permalloy, permanent magnets. Inductors 9 are located on the pipe surface in pairs, the cores 10 of the coils of each pair are symmetrical and parallel to the generatrix of the cylindrical surface of the pipe on which the corresponding electrode is located. Inductors 9 are connected in parallel and connected to a magnetic field controller 3.

The device operates as follows. Digital bioelectrograms of the source water and biological fluid — the juice of the plant or the fruit of the plant — are preliminarily obtained for the cultivation of which (by soaking, watering, spraying), the processed biologically active water will be used. Digital bioelectrograms can be obtained, for example, by the method of gas-discharge visualization (source KG Korotkov. Principles of analysis in GDV bioelectrography. Renome, 2007, 286 pages). The indicated method consists in obtaining and mathematical analysis of bioelectrograms, which record the nature and characteristics of optoelectronic emission, which initiates the glow of air around a suspended liquid drop. Bioelectrograms determine the area of luminescence, the average intensity of luminescence and the shape factor of the test sample. The indicated parameters can be illustrated in the above images of the bioelectrogram of cucumber juice (Fig. 3a) and source water (Fig. 3b). The luminescence area is estimated by the number of points of a digital image with nonzero intensity that were not removed by the bioelectrogram analyzer when filtering noise. The average intensity of the glow is calculated for all points of the image with a non-zero intensity, not removed when filtering noise, and the shape factor in the image. For cucumber juice, the shape coefficient corresponds to three rays with their orientation at 120 degrees to each other. The above images show that the luminescence area, the average luminescence intensity and the shape factor of the source water differ from similar parameters of cucumber juice. By comparing the area of the glow, the average intensity of the glow and the shape factor of the digital bioelectrograms of the source ox and biological fluid, the parameters of the effect on the source water are determined.

To obtain the required parameters of the impact on the source water, the control signal setting unit 1 sets the necessary voltages at the input of the electric field regulator 2 and the input of the magnetic field regulator 3. The number and spatial location of the electrodes 7 necessary for water treatment are determined manually by connecting the wire 8 to the necessary electrodes. To do this, out of N 4 electrodes 7 installed in the electric processing section by switching wires 8, their quantity and location such that corresponds to the number and orientation of the rays on the bioelectrogram of the biological fluid sample are left in operation. For example, to obtain biologically active water for use in the cultivation of cucumbers according to the bioelectrogram of biological fluid (cucumber juice), three electrodes 7 connected at a 120-degree angle relative to each other are connected by the shape factor. Also connect pairs of inductors 9 corresponding to the connected electrodes 7, i.e. those pairs in which the cores of the coils 9 are symmetrical and parallel to the generatrix of the cylindrical surface of the pipe on which the connected electrode is located. For example, to obtain biologically active water for use in growing cucumbers according to the bioelectrogram of biological fluid (cucumber juice), three pairs of coils 9 are connected. The spatial arrangement of the connected electrodes 7 and inductors 9 provide a given spatial configuration of the electric and magnetic fields.

In addition, according to the results of the analysis of bioelectrograms of the biological fluid and the source water, the electric field intensity supported by the electric field regulator 2 and the magnetic field strength supported by the magnetic field regulator 3 are selected.

When the flow of source water passes through the conduit, it is affected by electric and magnetic fields generated by the control signal from the control signal setting unit 1, resulting in biologically active water, the bioelectrogram of which corresponds to the bioelectrogram of the biological fluid.

This is confirmed by the results of the experiment. To obtain biologically active water for use in growing cucumbers from the digitized images of bioelectrograms of cucumber juice (Fig. 3a) and source water (Fig. 3b), the source water was treated with the inventive device. The bioelectrogram of the obtained biologically active water from the bioelectrogram of cucumber juice is shown in FIG. 3c.

In FIG. 3c it can be seen that as a result of the treatment, biologically active water was obtained, in the bioelectrogram of which there are three rays characteristic of cucumber juice, in addition, the area and the average glow intensity changed compared to the initial water.

The beneficial properties of treated water are confirmed by the following studies. Table 1 presents the comparative data of the experiment on the germination of seeds of cucumber, the juice of which is selected as a biological fluid, when they are soaked in the source water and treated with the inventive device biologically active water. There is a higher level of "awakening" of seeds (up to 100%) and a 1.7-1.9 times higher rate of germination when using biologically active water. After electrical and magnetic treatment of water, it is possible to bring its properties closer to the properties of the selected biological fluid, which, when soaking, watering or spraying the plants with the resulting water, improves the living conditions of the biological object.

Thus, the inventive device provides biologically active water that increases seed germination, confirmed experimentally on the one hand by the results of studies of gas discharge glow, and on the other hand, the enhanced biologically active properties of this water.

Claims (1)

A device for treating water with electric and magnetic fields, containing a water pipe with a section of electric and magnetic processing by means of polarizing electrodes and inductors, characterized in that it further comprises a housing in which a control signal setting unit is placed, connected to an electric field regulator and to a magnetic regulator field, while the pipe has a circular cross section, contains sequentially installed section of the electrical processing and the magnetic processing section; the electrical processing section is made of dielectric material, contains a cathode made in the form of an annular insert of non-magnetic non-corroding metal, and an anode including N wire-connected electrodes made in the form of graphite rods mounted in a plane perpendicular to the direction of water flow radially relative to the surface the pipes in the through holes by means of a tight connection, the anode and cathode of the electric processing section are connected to the electric field controller; the magnetic processing section is made of non-magnetic material, contains 2N inductors with cores located in pairs along the pipe surface, the cores of each pair of coils are symmetrical and parallel to the generatrix of the cylindrical surface of the pipe on which the corresponding electrode is located, inductors are connected in parallel and connected to the magnetic field controller .

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