RU2008148152A - METHOD FOR PRODUCING ELECTRIC ENERGY AND DEVICE FOR PRODUCING DC ELECTRIC ENERGY - Google Patents

Abstract

 1. The method of production of electrical energy, which consists in the fact that in a system consisting of a stationary magnetic subsystem containing an element with a certain atomic mass, and a subsystem placed in a stationary magnetic subsystem containing the main substance of complex molecular composition and an element with a larger atomic mass, than an element of the stationary magnetic subsystem, and at the first stage by external pathogens create an equilibrium single system from the subsystems by discrete supply of optical electromagnetic radiation range with the on-off period of 103-105 s until the system as a whole reaches the equilibrium state modes, and then the conditions of the nonequilibrium state of the entire system are created due to electromagnetic and electric means of excitation in the structures of the substance using alternating current sources with a frequency of up to 50 Hz in the intervals 10 s of discrete on-off for a time <10-3 s, which brings certain substance structures to a state of controlled chaos so that at the stage of a precritical state of integrity of the entire system with By using an electrostatic pulse over the entire surface of the substance, conditions are created to suppress the state of chaos, which ensures the emergence of new structural formations in the substance and flows of electrically charged particles arise at their boundaries, and the control memory of the microcontroller contains the information necessary to determine the given configuration of the time-switching link, which should be created during each time interval of the cycle of operation of connecting or disconnecting electrical means of excitation

Claims (17)

1. The method of production of electrical energy, which consists in the fact that in a system consisting of a stationary magnetic subsystem containing an element with a certain atomic mass, and a subsystem placed in a stationary magnetic subsystem containing the main substance of complex molecular composition and an element with a larger atomic mass, than an element of the stationary magnetic subsystem, and at the first stage, external pathogens create an equilibrium single system from the subsystems by discrete supply of optical electromagnetic radiation range with an on-off period of 10 ³ -10 ⁵ s until the system as a whole reaches the equilibrium state modes, and then the conditions of the nonequilibrium state of the entire system are created due to electromagnetic and electric means of excitation in the structures of the substance using alternating current sources with a frequency of up to 50 Hz in the ranges 10 to the discrete on-off time of <10 ^-3 s, which results in certain structures substance into a state of controlled chaos, so that in step subcritical state integrity of the entire system the electrostatic pulse over the entire surface of the substance creates the conditions for suppressing the state of chaos, which ensures the emergence of new structural formations in the substance and flows of electrically charged particles arise at their boundaries, and the control memory of the microcontroller contains the information necessary to determine the given configuration of the time-switching link, which should be created during each time interval of the cycle of work connecting or disconnecting electrical means excited I and the electrostatic battery, and the inclusion of one or more batteries containing salts of an element with a larger atomic mass than the atomic mass of the main substance, for the collection of electrical energy and its accumulation in a separate battery battery for external consumption with a clear return to the initial equilibrium state with a cyclic repetition of the process of generating electrical energy. 2. Device for producing direct current electric energy, containing a renewable source of electricity, implemented in the form of one or more sandwich packets, each of which contains two layers, and between them there is a central packet made in the form of a round cylinder or a parallelepiped made of a magnetic permeable material filled with a substance in equilibrium in the form of a melt, molten salt, liquid crystal, solution, chemical compound and other form and located in magnetic Ole created by permanent magnets containing lanthanide, for example, Samarium Sm, moreover, two layers of sandwich packets are made in the form of a bilayer structure, the outer sides of which are facing the magnetic poles of a permanent magnet, are made of magnetically permeable non-conductive material, the inner sides respectively made of conductive metal with open and hole Fermi surfaces with a purity of 99.999% and thicknesses <10 ^-6 mm, in addition, the substance of the central package contains a lanthanide, for example, gadolinium G d with a larger atomic mass than the mass of the lanthanide, which is part of the permanent magnet, while the viscosity and surface tension of the substance do not allow complex molecular composition to penetrate through the appropriate mesh sizes of the central packet, the first electrodes of a renewable source of electricity associated with the first layer of the packet from the conductive metal with an open Fermi surface and a third layer of a packet of conductive metal with a hole Fermi surface, connected to the output of the pulse generator alternating current, the second output of which is connected with emitters of electromagnetic radiation of the optical range directed to the end face of the central sandwich package, the second electrodes of the renewable energy source, located on the longitudinal surfaces of the central package, are connected to the electrostatic battery, the third electrodes of the renewable source of energy, located at the ends central package, connected to one or more rechargeable batteries, the electrolyte of which is realized in the form of a melt with lei of a lanthanide with a lower atomic mass than the permanent magnet lanthanide and the substance of the central package lanthanide, for example, cerium Ce or La lanthanum, in addition, the inputs and outputs of the microcontroller are connected respectively to the substance monitoring sensor, the sensor for monitoring the currents of sandwich packets of a renewable source of electrical energy , a sensor for monitoring electromagnetic radiation of the optical frequency range, a sensor for monitoring the charge of the battery and the inputs of the battery switch, three inputs pulse alternator, the third output of which is connected to the input of the electrostatic battery. 3. A device for producing direct current electric energy according to claim 2, characterized in that a stable element is introduced, for example, iron (or sulfur, silicon, etc.), respectively, in the compositions of a substance and a permanent magnet, and its isotope in a substance and in one or more batteries of the device for storing electrical energy. 4. The device for producing direct current electric energy according to claim 2, characterized in that the layers of the sandwich packets made of two or more corresponding geometric shapes of bilayer structures, consisting of magnetically permeable layers facing the poles of the magnets and conductive metal layers with open and with Fermi hole surfaces with a purity of 99.999% and thicknesses <10 ^-6 mm. 5. The device for producing direct current electric energy according to claim 2, characterized in that the first and second layers of the sandwich package are made in the form of periodic unconnected rings. 6. A device for producing direct current electric energy according to claim 2, characterized in that the thickness of the central layer of the sandwich package is of the order of ≥10 mm. 7. A device for producing direct current electric energy according to claim 2 or 6, characterized in that the first and second layers are respectively made with an electronic Fermi surface — Au gold or copper Cu or silver Ag and with a Fermi hole surface — graphite C. 8. The device for producing direct current electric energy according to claim 2, characterized in that the electromagnetic emitter is made in the form of several emitters of the optical wavelength range of 10 ^-6 -10 ^-7 m 9. A device for producing direct current electric energy according to claim 8, characterized in that the optical range emitters are implemented as LEDs. 10. A device for producing direct current electric energy according to claim 8, characterized in that the optical range emitters are made in the form of lasers. 11. The device for producing direct current electric energy according to claim 2, characterized in that the electrolyte of one or more rechargeable batteries of the electric energy storage device is made in the form of a solution of actinoid salts, or metal salts of a group of iron ferromagnets Fe, or cobalt Co, or nickel Ni, metal salts with an open Fermi surface, copper Cu, either Ag silver or Au gold, as well as fluorine compounds F. 12. A device for producing direct current electric energy according to claim 2, characterized in that the electrostatic battery contains an electrolyte in the form of a solution of lanthanide salts. 13. A device for producing direct current electric energy according to claim 2 or 12, characterized in that the lanthanide isotopes are introduced into the substance and with a larger atomic mass into the electrostatic battery. 14. The device for producing direct current electric energy according to claim 2, characterized in that the permanent magnets are made of cobalt and metal, an element with an unfilled electron shell of level d. 15. The device for producing direct current electric energy according to claim 2, characterized in that the first layer of the sandwich package is made of silicon semiconductor Si or Ge germanium by electron conductivity with a donor impurity of arsenic As, or selenium Se, or antimony Sb, and the second layer the sandwich package is made of a silicon semiconductor Si, or germanium Ge with hole conductivity with an acceptor impurity of indium In, or gallium Ga. 16. A device for producing direct current electric energy according to claim 2, characterized in that the first and second layers of the sandwich package are made in the form of bee honeycombs with an angle of rotation of their cells

with respect to the magnetic field vector of permanent magnets in predetermined limits with respect to the direction vector of the planet’s geomagnetic field. 17. The device for producing direct current electric energy according to claim 2, characterized in that one or more rechargeable batteries of the electric energy storage device are respectively made on the basis of batteries using alkaline electrolytes of potassium and lithium hydroxide with silver-zinc or nickel-cadmium electrodes, dry lithium batteries, either based on batteries using acidic electrolytes based on sulfuric acid and lead electrodes, or mercury batteries.