RU2663927C2 - Method of air oxygen ozone production - Google Patents

Abstract

FIELD: machine building.SUBSTANCE: invention relates primarily to machine building, as well as to the chemical industry, transport, energy and other industries. Method for producing air oxygen ozone is that the operation of the line formations of plates of fuel cells made of iron and nickel is provided by vibration under resonant action on them by ultrasound. This ensures the appearance of microcracks in the layers of nickel adsorbed by hydrogen with the formation of electromagnetic waves and electric fields in microcracks. In the electric field electrons of field emission are accelerated due to periodic breakdown, which creates magnetostriction oscillations of ultrasound in crystals of iron-nickel ferrites-spinels and provides the possibility of passage of photochemical reactions. Result of such reactions is the ozone output from the fuel cell plates.EFFECT: reduction of energy costs necessary for the production of ozone, which characterizes the reduction in the cost of ozone production from oxygen in the air.6 cl, 16 dwg

Description

The invention can be used in mechanical engineering, in the chemical industry, in transport, in the energy sector, in construction for cutting stone and metal, for performing artwork, for example, for carving stone, metal, burning, instructing, grinding, in water treatment, in medicine to create perhydrol, etc.

A fuel cell is a plate assembled from a large number of heterogeneous line formations connected galvanically from dissimilar alloys of nickel and iron (Fig. 7). The line formations are made of nickel adsorbed by molecular hydrogen, coated with a layer of nickel hydroxide on both sides, and high-carbon pearlite-cementite steel, which has iron-nickel ferrite in its structure, made in the form of a spinel crystal, and iron carbide (Fig. 6). In the handle of the plate, all the extreme layers of nickel and the core of iron are soldered to create a contact of thermoelectromotive force (Fig. 4).

A method for generating ozone from atmospheric oxygen involves creating a nonequilibrium thermodynamic state in a fuel cell plate at two points on a blade of a blade and a handle, obtaining an open oscillatory circuit of electromagnetic wave emission due to variable circulation of thermoelectric currents and electron mechanical emission during the splitting of nickel hydroxide crystals and nickel layers in the body of a fuel element, the entry of a fuel plate into an acousto-magnetoelectric resonance, giving iron-nickel fer grains Villari Rita effect due to the effect of ultrasound on ferrite, the formation of vacuum microcracks in the lower layers of nickel domain crystal crystals, the creation of conditions for the occurrence of photochemical reactions by exposure to oxygen molecules of ultraviolet rays, and counter dissociation of molecular oxygen and ozone.

The technical result is to reduce the energy required for the production of ozone from atmospheric oxygen, which can be used directly on transport units as fuel, without using hydrocarbon substances as fuel in internal combustion engines, in the purification of drinking water and sewage from harmful to health human chemical compounds and pathogens, as well as an intermediate product for the production of hydrogen peroxide.

The stated technical problem is solved in that the method of generating ozone from atmospheric oxygen consists in the operation of line formations of nickel and iron, in the creation of a nonequilibrium thermodynamic system between the fuel cell plate and the heated blade handle, in the passage of thermoelectric currents through the body of the plate, leading to heating and cooling npn and pnp transitions of galvanic adhesions of dissimilar metals with their conductive characteristics, in a variable circulation of thermoelectric currents, giving the magnetic field in the thickness of the fuel cell, in the production of a primary electromagnetic wave in the open oscillatory circuit of the plate body, in the aggregate of the size and shape of the plate (Fig. 9), grains of iron-nickel ferrite and iron carbide, thicknesses of line formations of iron and nickel, identified in a peculiar a drawing on the surface of the blade of a fuel cell, which makes it possible to enter the plate into acousto-magnetoelectric resonance, which gives energy exchange from one of the frequencies of the electromagnetic spectrum of the Earth’s magnetosphere, in the passage of sound photochemical processes (Fig. 16) in the body of the fuel cell, in linear dimensions and the shape of the blade, allowing ultrasound to obtain in the grains of iron-nickel spinel ferrite a large coefficient of linear expansion, in a large amplitude of deformation of the grains of ferrite of an alloy of iron and nickel squeezed between solid layers of iron carbide, in action on soft layers of nickel compounds of spinel crystals of iron-nickel ferrite, breaking at the beginning of the connection of nickel hydroxide, subsequently reaching layers of nickel adsorbed by hydrogen, making in brittle layers n deep vacuum microcracks, in the occurrence of a strong electrostatic field in the cracks between the “banks” of cracks, in the breakdown by electrons of a vacuum gap, in field emission, which captures protons and allows the passage of photochemical reactions in microcracks, the final result of which is ozone production, in the opposite dissociation of molecular oxygen and ozone in the event of excess pressure arising from cracking and soldering of the volume of microcracks.

The principle of operation of the patented element is that when exposed to sharp grains (spikes) of the grains of the mineral, the iron and nickel ferrite spinels vibrate during the resonant action of ultrasound on them, microcracks are formed in the layers of nickel hydroxide and nickel saturated with hydrogen, in which strong electric fields accelerate them field emission electrons, similar to how they arise during the destruction of ionic crystals as a result of the separation of ions into positive and negative by a crack, due to the occurrence of periodic breakdown in microcracks, free electromagnetic waves appear in them, which enter into resonance from one of the frequencies of the Earth’s magnetosphere, receive energy exchange to create magnetostrictive oscillations of ultrasound in iron-nickel ferrite grains, all these processes make it possible to undergo photochemical reactions to produce ozone from atmospheric oxygen, for maintaining and activating electromagnetic waves in the body of the plate is supplied thermal energy in the form of thermoelectric currents from the handle of the element.

The phenomenon of sonoluminescence is well known. Sonoluminescence is the occurrence of a flash of light during the collapse of cavitation bubbles generated in a liquid by a powerful ultrasonic wave. A typical experiment in observing sonoluminescence is as follows: a resonator is placed in a container of water and a standing spherical ultrasonic wave is created in it. With sufficient ultrasound power, a bright point source of bluish light appears in the very center of the tank - the sound turns into light. We have a similar situation with crack formation of vacuum gaps in nickel crystals and the formation of cavitation bubbles in water, but there are not big differences, i.e. the nickel crystal lattice bursts and solders simultaneously by the action of ultrasound propagating through the body of the fuel cell by the additional mechanical action of iron-nickel ferrite spinel crystals. The process of breakdown of vacuum gaps by the electron flux is the same as the flash of ultraviolet radiation during the collapse of bubbles in a liquid and soldering of nickel crystals. In this case, the Doppler effect occurs, which consists in changing the frequency of the radiation of hydrogen atoms from vacuum cracks when they exit the nickel crystal lattices, from infrared (thermal) when the crack expands to ultraviolet when the crystals are soldered. To obtain energy by a fuel cell that produces ozone from atmospheric oxygen, we give it an internal structure and shape for the plate to enter the acousto-magnetoelectric resonance. For this, a frequency is selected from a number of frequencies of the radiation of a hydrogen atom compiled under the editorship of a doctor of medical sciences. Senior Researcher, Director of the Innovation Medical Center KORPSAN V.V. Butukhanov. From this series of resonant frequencies, one resonant frequency is selected, which will give energy exchange: from 11.36 GHz; 22.72 GHz; 45.44 GHz; 90.88 GHz; 181.8 GHz; 363.5 GHz. For each resonant frequency, a different number of line heterogeneous formations is selected. With the analogy of the formula for selecting pairs of poles used in electrical engineering when selecting the number of revolutions for an electric motor at a frequency of 50 Hz electric current ripple in the network. We give an example: 2p2 - 3000 rpm, 2p4 - 1500 rpm, 2p6 - 1000 rpm. The number of heterogeneous line formations in the fuel cells is selected: from the frequencies of 11.36 GHz - 4 pairs of layers of nickel and iron / g. 2p8; 22.72 GHz - 2p16; 45.44 GHz - 2p32; 90.88 GHz - 2p64; 181.8 GHz - 2p128; 363.5 GHz - 2p256. Works of Academician B.V. Deryagin discovered the phenomenon of mechanical emission — the emission of electromagnetic waves and electrons accelerated to tens of keV when crystals crack, are considered in the book by Yu.S. Potapov., L.O. Fominsky., S.Yu. Potapov. "The energy of rotation", chapter 12 "The mysteries of sonoluminescence", 12.1 Accelerator mechanism of cold nuclear fusion. The effect of Alexander Koldamasov is known. Experiments R.G. Hertz experimental production of electromagnetic waves considered in the book T.I. Trofimova "Physics", chapter 20 "Electromagnetic waves", 161. Experimental production of electromagnetic waves, as well as the acousto-magnetoelectric effect discovered by Soviet scientists under No. 133 with a priority of 01/31/64, "A previously unknown phenomenon of occurrence in bodies conducting current placed in a magnetic field, when sound of electromotive force passes through them across the direction of sound propagation, due to the interaction with the sound wave of charge carriers located in different energy states thawing.

Conclusions I.M. Margulisa from the dissertation "The influence of the dynamics of cavitation bubbles in an acoustic field on the mechanism of sonoluminescence and soundchemical reactions, year: 2002, they say that the mechanism of sonoluminescence in cavitation bubbles is not thermal, but electric. The magnetoelastic effect in the paraprocess in iron-nickel spinel ferrites studied KG Belov, explains the large volume magnetostriction in invariant nickel and iron alloys when the domain boundaries are shifted and the domain magnetization vectors rotate in an external magnetic field e. "Elastic, thermal, electrical phenomena in ferromagnets." M., Fizmatizdat, 1959. "Effects of Unidirectional Exchange Anisotropy in Ferrites," p. 798.

Based on the above effects, volume magnetostriction of the para process in iron-nickel spinel ferrites allows breaking through layers of nickel hydroxide and nickel adsorbed by hydrogen. This property of spinel ferrites is embedded in the internal structure of a ferrimagnet crystal, in which the magnetic moments of atoms of different sublattices are oriented antiparallel, but the moments of different sublattices are not equal, and, therefore, the resulting moment is not equal to zero. The process of generating ozone from atmospheric oxygen in fuel cells is similar to the process of chemical reactions during charges and discharges in nickel-iron batteries, in which the negative electrode consists of powdered iron and the positive electrode of nickel hydroxide. A series of series-connected iron-nickel batteries is structurally combined in the fuel cell plate, where periodic charges and discharges of layers of nickel iron occur with the natural frequency of hydrogen atoms, i.e. 1420 MHz, with the circulation of thermoelectric currents through the body of the fuel plate. The layers of nickel hydroxide act as gates of the capacitor plates, i.e. periodically accumulate electrical energy in the plate. Periodically, trivalent nickel cations pass into divalent nickel cations and vice versa, i.e. the insulator goes into a semiconductor state and vice versa. Layers of high-carbon pearlite-cementite steel, having iron-nickel ferrite spinel crystals on both sides, are conductors and suppliers of molecular oxygen from air to vacuum gaps of nickel layers. The lack of hydrogen ions in the plate is replenished from air saturated with water vapor on the "terraces" of sharpenings on both sides of the plate (Fig. 10).

The invention is illustrated by the General diagram of the fuel cell device shown in FIG. 1, also in FIG. 2-16, which show the following:

FIG. 2 - the appearance of the fuel cell,

FIG. 3 - General layout of aggregates of a car,

FIG. 4 is a diagram of a thermoelectric device of a fuel cell,

FIG. 5 is a diagram of a thermoelectric device of a fuel cell (reverse electric current),

FIG. 6 is a diagram of lowercase formations of fuel cells,

FIG. 7 - appearance of the fuel cell,

FIG. 8 is a diagram of the transverse stacking of lowercase formations,

FIG. 9 is a diagram of the longitudinal laying of lowercase formations,

FIG. 10 - "terrace" of the sharpening of the fuel element,

FIG. 11 is a diagram of mechanical emission and sound photochemical reactions in a fuel cell,

FIG. 12 is a diagram of the formation of microcracks,

FIG. 13 is a diagram of field emission,

FIG. 14 is a diagram of the proton emission,

FIG. 15 is a breakup diagram,

FIG. 16 is a diagram of the formation of ozone.

The proposed method during operation of the device is as follows:

- there is an initial thermodynamic equilibrium and a contact potential difference in the handle of the fuel element between the iron core of the plate and the extreme layers of nickel. Fuel plate not activated;

- the circuit is closed between the extreme layers of nickel and the iron core of the plate, a temperature difference is created at two points on the handle and blade of the fuel cell plates, by heating the handle with a heating device;

- thermoEMF appears on the pnp junction contacts in the handle of the plate, the duration of the thermoelectromotive force depends on the speed of temperature equalization at the named points of the element (activation time);

- a chain of oscillatory motion of thermoelectric currents along the body of the fuel cell plate appears, forming the primary spectrum of electromagnetic waves;

- there are periodic processes of charge and discharge between the layers of iron and nickel, the eigenfrequencies of the plate’s electromagnetic waves are generated resonant with the eigenfrequency of the atomic hydrogen, due to the combination of shapes and sizes of the fuel cell plate

- electromagnetic waves are filtered in the open oscillatory circuit of the fuel element (tuning fork effect);

- at the same time, an acoustomagnetoelectric resonance occurs, consisting in the resonance of electromagnetic and acoustic (sound) fields from the generation of electrical energy by heat: magnetostriction creates ultrasonic vibrations in the iron layers that are amplified by a sound (mechanical energy) field, the Villari effect allows feedback (auto-tuning) with the electromagnetic field the external environment;

- the effect of volume magnetostriction of the para process in crystals of iron-nickel spinel ferrite makes it possible to create deep vacuum microcracks in soft nickel layers with sharp (spiked) crystal faces;

- during magnetostriction in the iron layers, “respiration” occurs, adsorption of molecular oxygen from the air into the layers of high-carbon pearlite-cementite steel and transportation of negatively charged oxygen molecules to vacuum microcracks during charge and discharge processes between the nickel iron layers;

- during periodic processes of charge and discharge in the nickel layers on opposite surfaces of the layers there are volumetric electric charges, to generate them, layers of nickel hydroxide act as a gate, i.e. a constant transition of nickel cations from a three- to two-valence state and vice versa, a dielectric into a semiconductor and vice versa;

- when thermoelectric currents move through nickel layers in an alternating magnetic field with the frequency of natural vibrations of hydrogen atoms, a high amplitude of hydrogen ion exit from the crystal lattice of nickel is activated, bias currents occur;

- crack formation and adhesion of vacuum gaps in nickel layers with a periodic change in the valency of nickel cations gives rise to the Doppler effect, infrared radiation of hydrogen atoms when the crack expands becomes ultraviolet when the crack is welded;

- ultraviolet radiation acts on molecular oxygen, supplied by layers of high-carbon steel into the vacuum gaps of the nickel layers, ozone is formed;

- bias currents (Hall effect) generate Foucault currents, i.e. activation time by thermoelectric currents from heating the handle of the plate in the element body is pumped;

- circulation of convection currents in the layers of the plates of the fuel cell supports the activation of oscillations in the production of ozone from atmospheric oxygen;

- the production of ozone from atmospheric oxygen stops when the circuit is opened between the extreme layers of nickel and the iron core of the plate.

A laboratory prototype of an active fuel cell was made from thin plates of iron and nickel to generate ozone from atmospheric oxygen, using acousto-magnetoelectric resonance when heating the handle of the plate with the warmth of a person’s palm.

Claims (6)

1. The method of generating ozone from oxygen in the air, which consists in the fact that the line formations of the plates of fuel cells made of iron and nickel are provided by vibration with the resonant action of ultrasound on them, which ensures the appearance of microcracks in the layers of nickel adsorbed by hydrogen, with the formation of electromagnetic waves in microcracks and electric field with acceleration in the last electron field emission, due to periodic breakdown, which creates magnetostrictive oscillations of ultrasound in the crystal iron-nickel ferrite spinels and allows passage of photochemical reactions that result in the ozone output from the fuel cell plates. 2. A method according to claim 1, characterized in that the layers of nickel adsorbed by hydrogen are coated on both sides with nickel hydroxide. 3. The method according to p. 1, characterized in that the layers of high-carbon pearlite-cementite steel have in their structure on both sides of the crystals of iron-nickel ferrite-spinel. 4. The method according to p. 1, characterized in that the extreme layers of nickel and the iron core of the plate are soldered galvanically to create a contact of thermoelectric force. 5. The method according to p. 1, characterized in that the sharpening areas of the plates of the fuel element are used to replenish the reserves of atomic hydrogen ions. 6. The method according to p. 1, characterized in that the combination of shapes and sizes of lowercase formations of the plates of the fuel cell provides the appearance of acousto-magnetoelectric resonance in the open oscillatory circuit of the fuel cell.

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