RU2000116664A - THERMOEMISSION ELECTRIC GENERATING MODULE FOR THE ACTIVE ZONE OF A NUCLEAR REACTOR WITH AN EXTENDED THERMOEMISSION SYSTEM OF TRANSFER OF HEAT ENERGY IN ELECTRIC - Google Patents

Claims (7)

1. Thermionic electricity generating module for the core of a nuclear reactor with a remote thermionic system for converting thermal energy into electrical energy, comprising a thermionic conversion system combined with a condensation zone of a high-temperature heat pipe, electric generating elements, emitters and collectors of which are connected to the electric circuit using a movable metal switching adapter inside an electricity generating channel with cesium vapors containing cathode and anode current leads for external connections, characterized in that the electricity generating channel is built into an electrically insulated housing, inside which there is a high-temperature heat pipe containing nuclear fuel in the form of an annular fuel element in the evaporation zone, and a multi-element electricity generating channel with series-connected electrical circuit is located in the condensation zone from 2 to 20 power generating elements in which at least one emitter is placed directly on the metal part a condensation zone and is connected to a cathode current output, reverse and coaxial to other emitters electrically isolated from it by wet electrical isolation, the inner surface of which is connected through a wet electrical insulation and cathode current output to the external surface of the heat pipe condensation zone, moreover, the output path of the gaseous fission fragments from the fuel element is placed inside the heat pipe and the cathode current lead containing end reflectors and separated from the interelectron of the native space with a gas-tight partition, and an electrically insulated casing is connected on one side to the sliding thrust bearing, and cathode and anode external current leads are placed on its other side.  2. Thermionic electricity generating module for the core of a nuclear reactor with a remote thermionic system for converting thermal energy into electrical energy, containing a thermionic conversion system, electric generating elements, emitters and collectors of which are connected to the electric circuit using a movable metal switching adapter inside the electric generating channel with cesium vapor containing cathode and anode current leads for external connections, characterized in that the high temperature The heat pipe is built into an electrically insulated casing and is gas-controlled, in the condensation zone of which there are two multielement electro-generating channels connected in parallel to the casing inside the casing with a common interelectrode medium of cesium vapor, cathode and anode current leads, from 2 to 10 electro-generating elements in each electro-generating channel moreover, their emitters are located on a common heat supply zone combined with a condensation zone of a gas-controlled high-temperature heat pipe.  3. Thermionic electricity generating module for the core of a nuclear reactor with a remote thermionic conversion system for converting thermal energy into electrical energy, containing a thermionic conversion system, electric generating elements, emitters and collectors of which are connected to the electric circuit using a movable metal switching adapter inside the electric generating channel with cesium vapor containing cathode and anode current leads for external connections, characterized in that the emitters are electric power channels are built into an electrically insulated casing and placed on a "dry" ceramic insulation, which is connected to the heat supply from the liquid metal pipeline, and the heat supply is made in the form of a Field pipe.  4. Thermionic electricity generating module for the core of a nuclear reactor with a remote thermionic system for converting thermal energy into electrical energy according to paragraphs. 1 and 2, characterized in that the evaporation zone of the high-temperature heat pipe is placed in a vacuum gap between the annular fuel element and the heat pipe itself.  5. Thermionic electricity generating module for the core of a nuclear reactor with a remote thermionic system for converting thermal energy into electrical energy according to paragraphs. 1, 2 and 4, characterized in that the annular gap between the heat pipe and the annular heat-generating module is filled with a heat-conducting medium.  6. Thermionic electricity generating module for the core of a nuclear reactor with a remote thermionic system for converting thermal energy into electrical energy according to paragraphs. 1, 2 and 4, 5, characterized in that radiogenic helium is used as the heat-conducting medium in the annular gap between the evaporation zone of the heat pipe and the annular fuel element.  7. Thermionic electricity generating module for the core of a nuclear reactor with a remote thermionic system for converting thermal energy into electrical energy according to paragraphs. 1, 2 and 4-6, characterized in that the electricity-generating channels are placed in two electrically isolated cases, which are made in the form of two converter units on one high-temperature heat pipe.