RU2496917C2 - Method for production of hydrogen from water and device for its realisation - Google Patents

Abstract

FIELD: power engineering.SUBSTANCE: method for production of hydrogen from water includes treatment of water simultaneously by electric and magnetic fields for decomposition of water molecules into oxygen and hydrogen by means of a pair of oscillating circuits comprising a water capacitor with insulated plates, where high-voltage rectified voltage is supplied with impulse shape, inductance coils and cavities for treated water arranged between capacitor plates and inductance coils, at the same time effect at water by fields is carried out in the resonant mode in respect to hydrodynamic oscillations of water when directing the vector of intensity of magnetic field perpendicularly to the vector of intensity of electric field. The device comprises a pair of oscillating circuits, every of which comprises a water capacitor with insulated plates, where high-voltage rectified voltage is supplied with impulse shape, inductance coils and cavities for treated water arranged between capacitor plates and inductance coils, at the same time the capacitance of the capacitor in the first oscillating circuit is connected to the inductance coil of the second oscillating circuit, capacitance of the second oscillating circuit is connected with the inductance coil of the first oscillating circuit as capable of their simultaneous charging and discharging, and input voltages are shifted by phase by 90 degrees.EFFECT: provision of the produced product and cheaper production of hydrogen.2 cl, 3 dwg

Description

The invention relates to techniques for producing hydrogen from water by electrolysis and can be used as a unit for converting thermal energy, when burning hydrogen, into mechanical.

There is a well-known experimental experiment conducted by experimental scientist Valery Dudyshev on the electric field dissociation of water into hydrogen and oxygen, as a result of which 1000% efficiency was established for energy costs (see). This experiment allegedly contradicts, if you believe your eyes, the Law of Conservation of Energy and may therefore be forgotten, just like the discovery by the Belarusian scientist Sergei Usherenko of his "Usherenko Effect" in 1974, where the released energy in the target exceeds 10 ² ... 10 ⁴ times the kinetic energy of the particle introduced into the target (see). A common property of these processes is that in the first case, an electric field, in the second case, sand is introduced into foreign bodies, where energy is released, hundreds of times higher than the energy of pathogens.

The aim of the invention is the expansion of technical and technological

the possibilities of applying the above effects.

This goal is achieved by the fact that the water is simultaneously and throughout the volume exposed to electric and magnetic fields. Figure 2 shows the structure of a water molecule. An angle of 104 degrees and 27 minutes between O-H bonds. The water molecule is oriented by an electric field with a strength E along the electric field with some force that decomposes part of the water into hydrogen and oxygen ions. Water is saturated with gases, capacitance increases (capacitor capacitance decreases), decomposition performance drops until an equilibrium occurs between the processes of formation and removal of ions. The analysis shows that the flow of an external current through water does not directly affect the process of its decomposition. To increase the productivity of water decomposition, we use a magnetic field with a certain intensity H, the vector of which is directed perpendicular to the electric field strength vector E, while the vectors on the water molecule act simultaneously in resonance mode with respect to the hydrodynamic vibrations of water, which arise due to the flow of Lorentz through magnetic field of water containing ions (see TSB, 2nd edition, volume 19, article “Cavitation”; Onatskaya AA, Muzalevskaya NI “Activated water”, “Traditional chemistry” and non-traditional ”, Leningrad, Publishing House of Leningrad University, 1985, chap. 8. magnetic field). The simultaneous action of the fields, even in the resonance mode, significantly increases the momentum of the force and the momentum acting on the water molecule, moreover, the magnetic field contributes to the faster removal of ions from the working zone of water decomposition, which stabilizes capacitive resistance. Figure 1 shows a diagram of the simultaneous radiation of electric and magnetic fields on the treated volume of water. Radiation occurs due to two oscillatory circuits L1C1 and L2C2, and the capacitance of the first (second) and the associated inductance of the second (first) circuit are simultaneously charged and discharged at a given frequency. To do this, it is necessary that the supply voltage of the circuits is phase-shifted by an angle of 90 degrees. The same conditions are necessary when operating the circuits in the mode of voltage resonance.

Figure 3 shows a water decomposition device with an electromagnetic field, which contains a housing 1, where the elements C1-L2, C2-L1, C3-L4 IS4-L3, circuits C1-L1, C2-L2, C3-L3, C4-L4 are located operating in the resonance mode of voltages or currents, and the circuits C1-L1, C3-L3 operate at a voltage relative to the circuits C2-L2, C4-L4, phase-shifted angle of 90 degrees. Between the plates of the capacitors and inductances there are water treatment cavities 3 connected by channels 4 to the inlet and outlet openings 2. The upper openings 5 and lower openings 6 are connected to the cavities 3 and are used to remove gases through potential grids (not shown conditionally).

The device operates as follows. When a rectified high-voltage pulse voltage is applied and the cavities 3 are filled with circulated heated (for example, solar collectors or exhaust water of hydrogen engines) water, in the cavities 3 it decomposes into hydrogen and oxygen ions, which move through holes 5, 6 under the action of a magnetic field, and are neutralized potential nets and transported to the consumer.

The proposed technical solution allows to increase productivity, reduce energy consumption per unit of the manufactured product and, as a result, reduce the cost of hydrogen production.

Claims (2)

1. A method of producing hydrogen from water, comprising treating the water simultaneously with electric and magnetic fields to decompose the water molecules into oxygen and hydrogen by means of a pair of oscillatory circuits consisting of a water capacitor with insulated plates, to which a high-voltage rectified voltage of a pulse form, inductors and placed between plates of capacitors and inductances of cavities for the treated water, while the impact on the water fields is carried out in resonance mode with respect to hydrodynamic vibrations of water when the direction of the magnetic field vector is perpendicular to the electric field vector. 2. A device for producing hydrogen from water, containing a pair of oscillatory circuits, each of which consists of a water capacitor with insulated plates, to which a high-voltage rectified voltage of a pulse shape, inductors and cavities placed between the plates of the capacitors and the inductances of the cavities for the treated water is supplied, while the capacity the capacitor of the first oscillatory circuit is connected with the inductance of the second oscillatory circuit, and the capacitance of the second oscillatory circuit is connected inductively Tew first oscillating circuit with the possibility of simultaneous charge and discharge, the input voltage phase-shifted by 90 °.

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