RU2000102304A - HEAT TRANSMISSION SYSTEM FOR THE URANIUM UF6 HEXAFLUORIDE CONVERSION REACTOR TO URANIUM OXIDE - Google Patents

Claims (12)

1. A method of using a fluidized bed reactor for converting uranium hexafluoride to uranium dioxide, said reactor having a hydrolysis chamber / 9 / communicated in its lower part with a pyrohydrolysis zone / 8 /, while its upper part is in communication with a filtration chamber / 10 / reaction gases, characterized in that during the operation of the reactor the walls of the hydrolysis chamber / 9 / and the walls of the chamber / 10 / of the gas filtration are cooled in order to reduce the temperature increase caused by the reaction gases, as well as emya stop the hydrolysis reactor chamber wall / 9 / and the chamber wall / 10 / filtration, subjected to heating in order to avoid condensation of the reaction gases on these walls.  2. The method according to p. 1, characterized in that the cooling and heating of the walls is carried out by a fluid medium, a heat carrier supplied by a heat exchanger.  3. The method according to p. 2, characterized in that the quality of the specified coolant use air.  4. The method according to p. 2 or 3, characterized in that measurements are taken in the flow of fluid-coolant to detect possible leakage of reaction gases.  5. The heat exchange system for a fluidized bed reactor designed to convert uranium hexafluoride to uranium dioxide, said reactor comprising a hydrolysis chamber / 9 / communicated in its lower part with a pyrohydrolysis zone / 8 /, while its upper part is in communication with the chamber / 10 / filtration of the reaction gases, while the walls of the chamber / 9 / hydrolysis and the walls of the chamber / 10 / gas filtration are equipped with means capable of transferring heat from both these walls and these walls.  6. The heat transfer system according to claim 5, characterized in that said means for providing heat transfer comprise means for circulating the heat-transfer fluid supplied by the heat exchanger.  7. The heat exchange system according to claim 6, characterized in that said means for circulating the fluid-coolant include hollow walls of said hydrolysis chamber / 9 / and chamber / 10 / for gas filtration.  8. The heat exchange system according to claim 6 or 7, characterized in that the said fluid-coolant is air.  9. The heat exchange system according to any one of paragraphs. 6-8, characterized in that it further includes measuring means located along the flow of fluid-coolant and designed to detect possible leakage of reaction gases.  10. A fluidized bed reactor designed to convert uranium hexafluoride to uranium dioxide and containing a hydrolysis chamber / 9 / communicated in its lower part with the pyrohydrolysis zone, while its upper part is in communication with the reaction gas filtration chamber / 10 /, characterized in that the walls of the hydrolysis chamber / 9 / and the walls of the chamber / 10 / for gas filtration are equipped with means allowing heat transfer from both these walls and to these walls.  11. The reactor according to p. 10, characterized in that the said means for providing heat transfer are means for circulating a heat-transfer fluid medium.  12. The reactor according to p. 11, characterized in that said means for circulating the fluid-coolant include hollow walls of said hydrolysis chamber / 9 / and chamber / 10 / for gas filtration.