RU2003106550A - METHOD AND DEVICE FOR IMPLEMENTING NON-THERMAL NUCLEAR SYNTHESIS WITHOUT Kickback - Google Patents

Claims (7)

1. A method for carrying out a non-thermal fusion reaction without recoil, characterized in that they create a liquid ion-electron plasma with a high density by introducing deuterium ions accelerated by a gas-discharge plasma in a pulsed mode onto the surface of an electrode (2) formed from nuclear fuel mixed with liquid lithium (9) or materials for a nuclear reaction, melted in liquid lithium (9), and enhance a non-thermal nuclear reaction without recoil due to the cohesive force acting between atoms in liquid lithium (9). 2. A device for generating energy through non-thermal fusion without recoil, characterized in that it contains a reaction container (7) for the production of deuterium ions by introducing deuterium gas into it, an anode (1) located in the reaction container (7), a cathode (2) formed from nuclear fuel mixed with liquid lithium (9) or materials for nuclear fusion, molten in liquid lithium (9), and placed in a reaction container (7) at a predetermined distance from the anode (1), and the source electrical impulse owls (4) for generating pulses of electrical voltage between the anode (1) and cathode (2) to obtain a liquid ion-electron plasma in the reaction container (7), in which the non-thermal reaction of nuclear fusion without recoil is enhanced by the bonding force acting between the atoms in liquid lithium (9). 3. The device according to claim 2, characterized in that the cathode (2) is located vertically and is formed of perforated metal or conductive ceramic plates (13) and metal grids (14) superimposed on each other, and the perforated plates (13) are filled with nuclear fuel, or it circulates through the perforated plates due to their capillary structure. 4. The device according to one of claim 2 or 3, characterized in that it further comprises cooling devices (10) and heat insulating devices (8) surrounding both the anode (1) and the cathode (2), and a device (11) for use of heat obtained from cooling devices (10). 5. The device according to one of claims 2, 3 or 4, characterized in that it further comprises a loop of a high temperature source, including a circulation pump (202), a pipeline (201) connected to a device for adding additional liquid lithium for heat extraction, obtained in a nuclear reaction, from a cooler or liquid lithium, and devices for separating and collecting deuterium, lithium vapor and helium obtained; a loop of a low-temperature source, including pipelines (206), a circulation pump (207) and a cooler (208); and a thermoelectric power generation system having a thermoelectric converter connected to an external load to select electric power by introducing thermoelectric converters (205) between the loop of the high temperature source and the low temperature source. 6. The device according to claim 5, characterized in that it further comprises a heat exchanger (015) located between the liquid lithium system (02) and the water / steam system (08), for using heat from the loop of the high-temperature source to control the turbine (07 ) 7. The device according to claim 5, characterized in that it further comprises an independent heat conversion system (018) located between the liquid lithium system (02) and the water / steam system (08) with the possibility of using heat from the loop of the high-temperature source for control turbine (07).