KR20070047966A - Energy generating device - Google Patents

Abstract

The present invention is to provide an energy generating device suitable for detecting electrical energy from a mixture of heavy water and hard water, the energy generating device of the present invention for this purpose is a body having a passage through which the mixture of hard and heavy water flows, the copper Reaction means (dielectric insert) inserted into the body passages to ionize the mixture flowing through the passage, separation means (magnets) separating the ions in the ionized mixture, and focusing the ions separated by the separation means electrical energy It includes a focusing means (current collecting plate) for detecting the.

Nuclear Fusion, Hydrogen Isotopes, Current Collectors, Dielectrics, Fuselage, Cavitation Emissions

Description

Energy generating device

1 is a structural cross-sectional view of an energy generating device according to an embodiment of the present invention;

FIG. 2 shows a hole in the insert of FIG. 1. FIG.

* Explanation of symbols for the main parts of the drawings

1: fuselage 2: insert

3: hole 4: magnet

5: current collector

The present invention relates to an energy generating device, and more particularly, to an energy generating device for converting energy generated during a fusion reaction into electrical energy.

Conventional reactor types do not have a continuous cycle of nuclear reactions. Because, with the rise of plasma temperature (~ T ^7/2 ), the heat loss in the reactor increases rapidly, the energy source decreases rapidly, the nuclear reaction in the reactor is instantaneous, and this nuclear reaction overcomes the Coulomb barrier, This is because they cannot get abundant energy to maintain the interaction between nuclei.

The present invention has been made to solve the problems of the prior art, and an object thereof is to provide an energy generating device suitable for detecting electrical energy from a mixture of hard water and heavy water ionized flowing.

The energy generating device of the present invention for achieving the above object is a body having a passage through which a mixture of hard and heavy water flows, reaction means inserted into the passage within the body to ionize the mixture flowing through the passage, the ionized mixture Separation means for separating the ions within, and focusing means for focusing the ions separated by the separation means for detecting the electrical energy.

Hereinafter, the most preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily implement the technical idea of the present invention. .

In the energy generator proposed in the present invention, the composition ratio of heavy water in the working mixture increases more than three times, while the magnetic field is stimulated in the environment where the material flows, and the flow of charged particles is separated under the interaction of the magnetic field, The current collector is installed to adjust the voltage. Positively charged particles move to one current collector plate, and negatively charged particles move to another collector plate. If the magnetic field is direct current, it will be permanently removed from the current collector plate, while if the magnetic field is alternating current, the electrical circuits between the current collector plates will be alternating.

Proposed as the closest technical solution is a reactor operating in a mixture with hydrogen and hydrogen isotopes. It operates as a mixture of hydrogen and hydrogen isotopes in the form of a flowing dielectric environment and has a body made of a dielectric that is durable to cavitation emission to accommodate the dielectric. Inside the fuselage is an insert filled with a dielectric material having a propensity to release cavitation.

These inserts have one or several holes, in which high-density charges are formed, the potentials of which ionize the hydrogen isotope atoms, for example 'hard water' with a relative electrical resistance of 10 ¹¹ Ω / m When chemically pure 'heavy water', with the same dielectric properties, is added to the same dielectric fluid 100 to 1, it delivers an electrical impulse to the nucleus of this atom to overcome coulomb barriers and control interactions between nuclei.

This technique maintains a controlled nuclear reaction in the medium. In this case only thermal energy is generated and used.

In order to reach these technical results, the energy generating device of the present invention operates in a mixture containing hydrogen and hydrogen isotopes in the form of a flowing environment, which is resistant to cavitation emission to accommodate this environment. The fuselage is included and the insert is filled inside. The insert is made of a dielectric plastic material, which tends to release cavitation and is filled with one or several holes. Larger ionization of the flow, for example, when a chemically clean heavy water having the same dielectric characteristics is injected at a preset ratio of about 100: 3 into a flowing dielectric material such as hard water with a special resistance of 10 ¹¹ Ω / m Will occur. Because stimulating the magnetic field in the ionized stream attracts more deuterium during this process, generating more than 3% of the electricity, and generating induced electromotive force. Under the Lorentz force interaction, small particles of charged charge will occur, positively charged ions will flow in one direction, and negatively charged ions will flow in the other direction.

1 is a cross-sectional view showing a structure of an energy generating device according to an embodiment of the present invention, Figure 2 is a view showing a hole of the insert of FIG.

Referring to FIG. 1, a body 11 having a passage through which a mixture of hard water and heavy water flows, an insert 2 inserted into a passage in the body 1 to ionize a mixture flowing through the passage, and a flow of the ionized mixture Magnet 4 for applying a magnetic field to the current collector; and a current collector plate 5 for focusing ions separated by the magnetic field.

In detail, first, the fuselage 1 is made of a dielectric material having strong durability against heat and cavitation emission, such as porcelain and sapphire. In other words, the fuselage 1 is made of a material that is dielectrically resistant to heat in accordance with the mixture in which the insert 2 in which the fusion reaction takes place with the release of energy is mixed.

The insert 2 is made of a dielectric material such as asbestos, a fluorine-containing synthetic polymer, etc., which is resistant to cavitation release, and the insert 2 has one or several holes 3 therethrough. ) Is a cylinder passage having a length of 25 mm to 30 mm and a diameter of 1 mm to 2 mm. (See FIG. 2).

In addition, two or more magnets 4 are provided in the fuselage 1, which are permanent and inductive, producing induction levels of one or more tesla.

Finally, two or more current collector plates 5 are installed behind the magnet 4 in the flow of the working liquid, which is isolated from each other and connected to the load circuit.

In other words, the collector plates 5 are provided in accordance with the flow ionized by the magnetic field, and the collector plates 5 are electrically independent of each other. A magnetic field is created in the direction of the current, which generates Lorentz's force and separates the charged small particles of ionized current.

When the dielectric liquid flows through the hole 3 provided in the dielectric insert 2 of the fuselage 1 at a frequency approximately equal to the inherent frequency of the hole 1, a strong vibration of the flowing liquid occurs.

Cavitation at the entrance of the hole 3 and accompanying release of cavitation occur. The material constituting the insert (2) emits electrons that dissipate through the flow in the intensive cavitation zone, and around the entrance of the hole (3) there is a high density of positive charge and a potential that can lead the earth to millions of volts relatively. Is formed. In the sphere of influence of these charges, the atoms of the hydrogen isotope lose electrons from their orbits during the flow of the dielectric liquid. The nuclei of the hydrogen are charged with positive charges, and while interacting with the positive charges around the openings of the holes 3 of the insert 2 they are pushed in the axial direction of the holes 3 where the density of the positive charges increases, ie the holes In the center of (3), the plasma density increases, and the retention period of the compressed nucleus is much longer than the time required for the nuclear reaction. The impulse received by the nucleus from the positive charge of the insert 2 may exceed 10 keV. In this way conditions for the generation of the fusion reaction are established. In this way, the nucleus interacts with the Coulomb barrier. The rate of interaction is regularized by the correlation between hard and heavy water. When the correlation between hard and heavy water is more than 100: 3, the degree of ionization flow increases by 3%. In such a form, the ionized and accelerated flow at the release of Laval passes through the magnetic field, resulting in Lorentz force and induced electromotive force. The cations move to one current collector plate and anions to the other current collector plate. By cutting off the current collector plate to an external load, current can be obtained from the circuit. If the magnetic field is direct current, the circuit will be direct current, and if the magnetic field is alternating current, the circuit will be alternating current.

The energy generating device of the present invention was operated as follows.

The working liquid is a mixture of hard and heavy water in a ratio of 100: 3 which is directed to the fuselage 1 via a high pressure pump of 57 MP. The fuselage 1 is provided with an insert 2 made of a dielectric material such as asbestos, and the insert 2 is perforated with a hole 3 having a length of 25 mm to 30 mm and a diameter of 1 mm to 2 mm. It is becoming. Special impulse generators provide oscillations at current frequencies of about 1 kHz. The resonant frequency depends on the length and diameter of the hole 3 of the insert 2 and on the physics coefficient of the liquid from which the change of the current wave can be obtained by the impulse generator.

At the beginning of the nuclear reaction, if the fuselage 1 is made of a transparent material such as sapphire, ion release, luminescence induction of surrounding materials, ionization flow, neutron flow, working heat, chemical composition, circuit The generation of induced electromotive force and other coefficients in the phase are also visible to the naked eye.

The total amount of electrical energy generated as a result of the above is about 10 to 20 times the energy consumed to maintain the nuclear reaction. At this point, the device has already operated for more than 150 hours.

This approach to energy generation means that the inexpensive equipment used to build the device and the supplemental equipment that ensures minimal impact on the environment are inexpensive.

Although the technical idea of the present invention has been described in detail according to the above preferred embodiment, it should be noted that the above-described embodiment is for the purpose of description and not of limitation. In addition, those skilled in the art will understand that various embodiments are possible within the scope of the technical idea of the present invention.

The present invention as described above has the effect of detecting the electrical energy from the mixture consisting of hard and heavy water.

Claims (1)

A body having a passage through which a mixture of hard and heavy water can flow; Reaction means inserted into the passage within the body to ionize the mixture flowing through the passage; Separating means for separating ions in the ionized mixture; And Focusing means for focusing the ions separated by the separation means for detecting electrical energy Energy generating device comprising a.

Images