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METHOD FOR PRODUCING ENERGY PROTON exothermic dividing SOME CHEMICAL CELL FOR USE CHEMICAL METHOD FOR PRODUCING ENERGY PROTON exothermic division magnetohydrodynamic METHOD FOR GENERATING ALTERNATING CURRENT INDUSTRIAL FREQUENCY ENERGY PRODUCING METHOD exothermic proton division (VARIANTS)
METHOD FOR PRODUCING ENERGY PROTON exothermic dividing SOME CHEMICAL CELL FOR USE CHEMICAL METHOD FOR PRODUCING ENERGY PROTON exothermic division magnetohydrodynamic METHOD FOR GENERATING ALTERNATING CURRENT INDUSTRIAL FREQUENCY ENERGY PRODUCING METHOD exothermic proton division (VARIANTS)
1. The method of exothermic fission / synthesis of chemical elements, characterized in that the reaction is carried out by bombarding the target with protons accelerated by the method of resonant collective acceleration (up to E⇒E) - the nuclei of the first reagent (hydrogen) on the nuclei of stable isotopes of the second reagent (selected according to the condition of the energy resolution of the reaction : the difference in the binding energies of nucleons in the nuclei of at least one reagent Δi = εi'-εi 0, and if the difference in binding energies in the nuclei of another reagent is Δk = εk'-εk 0, then / Δi / / Δk /), setting the speed control mode to the accelerated ion beam. 2. The use of a substance (fuel) for the method according to claim 1, characterized in that the isotope Na is used as fuel. The use of a substance (fuel) for the method according to claim 1, characterized in that the isotope N.4 is used as fuel. The use of a substance (fuel) for the method according to claim 1, characterized in that the Al isotope is used as the fuel. The use of a substance (fuel) for the method according to claim 1, characterized in that the isotope Fe is used as fuel. A method for direct conversion of thermal energy (including that obtained from the reaction of the method according to claim 1 - exothermic fission / synthesis of chemical elements) into electrical energy, characterized in that the kinetic energy of an ionized gaseous working fluid is converted directly into industrial frequency electricity by creating a magnetic excitation field moving (with a speed synchronous to the industrial frequency of the electric current) in the direction transverse to the main direction of movement of the working fluid, thus initiating the appearance of the total vector of electric
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