RU2006125265A - THERMONUCLEAR REACTOR - Google Patents

Claims (12)

1. A fusion reactor containing a plasma chamber, a vacuum pump for pumping gas from the chamber, a device for supplying thermonuclear fuel to the chamber, a cooling device for the walls of the chamber, a plasma heating device in the chamber, characterized in that in order to increase efficiency, the reactor chamber is spherical in shape, emitters of at least three generators of electromagnetic waves are docked to the holes in the walls of the chamber, whose frequencies in megahertz are selected in the range from 68 / R to 866 / R, where R is the radius of the chamber in meters. 2. The reactor according to claim 1, characterized in that three groups of generators are used, in each group at least three generators whose emitters are attached to the holes in the chamber walls, the axis of the holes intersect the chamber generatrix at the vertices of the regular polyhedron, the first group of generators E- waves, the second and third groups of H-wave generators, the frequencies of the first group of generators are selected in the range from 68 / R to 143 / R, the frequencies of the second group are selected in the range from 194 / R to 234 / R, the frequencies of the third group of generators are selected in the range from 714 / R to 866 / R where frequencies in megahertz. 3. The reactor according to claim 1, characterized in that at least three H-wave generators are used, with frequencies ranging from 714 / R to 866 / R, communicating with the chamber volume through cylindrical waveguides of H ₀₁ waves, coupled to the holes in the walls of the chamber, the axes of which at the joints intersect the generatrix of the spherical chamber at the vertices of the regular polyhedron and intersect in the center of the chamber. 4. The reactor according to claim 1, characterized in that at least three relativistic electron beam generators are used as high-frequency generators, electron beam inputs into the chamber are used as emitters, openings are made in the walls of the chamber at the points of the beam outlets in which recuperators are installed electricity beams. 5. The reactor according to claim 1, characterized in that at least three coaxial lines are used as emitters, the central electrodes of the coaxial lines being passed through holes in the walls of the chamber, bent in the form of loops and closed to the conductive surface of the chamber wall. 6. The reactor according to any one of claims 3 to 5, characterized in that the generators are equipped with radiation amplitude modulators, the modulator frequency being selected in the range from 68 / R to 866 / R. 7. The reactor according to claim 6, characterized in that closed resonators are used as modulators, consisting of a toroidal chamber and a flat capacitor connected together with round plates, coaxial openings are made in the centers of the flat capacitor plates for passing the REP, resonators are mounted on pipes for transportation REP in the order of increasing their own frequency and are connected to the ball resonator chamber by means of coaxial feedback lines, in the pipes for transportation, breaks are made adjacent to the holes in centers of plates of flat capacitors of closed resonators. 8. The reactor according to any one of claims 3 to 5, characterized in that at least three E-wave generators are added to it, the frequencies of which lie in the range from 68 / R to 143 / R. 9. The reactor according to claim 8, characterized in that the antenna inputs of the E-wave generators are made in the form of coaxials, the external coaxial pipes of which are joined to the holes in the walls of the chamber at the vertices of the regular polyhedron inscribed in the chamber, the central electrodes of the coaxials are deepened into the chamber to a depth less than 1 m from the point of intersection of the central electrode with the generatrix of the camera surface. 10. The reactor of claim 8, as the emitters of the E-wave generators, use the holes in the walls of the chamber with attached REP inputs, the centers of the holes lie at the vertices of the regular polyhedron inscribed in the chamber. 11. The reactor of claim 10, characterized in that an adaptive system for tracking the shape and size of the plasma ball, the average amplitude of the RF field in the chamber, a frequency, amplitude, phase of oscillation of electromagnetic wave generators, oscillations in the chamber capable of minimizing loss stream of plasma particles to the chamber wall. 12. The reactor according to claim 11, characterized in that, in order to increase the efficiency of the reactor, use a regulator of the thickness of the liquid lithium layer on the walls of the resonator with a working body controlled by a tracking system.