Engineering Development Of Fluid Bed Fluoride Volatility Processes Part 6 Preparation Of Dense Uranium Dioxide Particles From Uranium Hexafluoride In A Fluidized Bed
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Engineering Development of Fluid-bed Fluoride Volatility Processes
| Author | : Irving E. Knudsen |
| Publisher | : |
| Total Pages | : 34 |
| Release | : 1964 |
| Genre | : Fluidization |
| ISBN | : |
A fluid-bed process for the preparation of dense, spheroidal uranium dioxide particles directly from uranium hexafluoride for dispersion and compacted fuel element applications has been developed. In the process, a uranium hexafluoride is reacted with mixtures of steam and hydrogen in a bed of uranium dioxide fluidized by the reactant gases and maintained at 650 to 700 degrees C. The solid reaction products deposit as a dense layer on the surface of the bed particles. The operating procedure involves alternating periods of uranium hexafluoride feed periods of fluoride cleanup when only steam and hydrogen are fed. Product is withdrawn at the end of each cleanup period.
Engineering Development of Fluid-bed Fluoride Volatility Processes
| Author | : G. J. Vogel |
| Publisher | : |
| Total Pages | : 112 |
| Release | : 1964 |
| Genre | : Fluorination |
| ISBN | : |
Fluid-bed, fluoride volatility processes are being developed for the recovery of uranium and plutonium from spent nuclear fuels for power reactors. In these processes, chemical separations are achieved by formation of the volatile hexafluoride compounds of uranium and plutonium.
Engineering Development of Fluid-bed Fluoride Volatility Processes
| Author | : D. Ramaswami |
| Publisher | : |
| Total Pages | : 52 |
| Release | : 1965 |
| Genre | : Ceramic metals |
| ISBN | : |
As part of a continuing program on the development of fluid-bed fluoride volatility processes, methods were developed for reprocessing highly-enriched uranium-aluminum alloy and uranium dioxide-stainless steel cermet fuels. These methods involve two basic gas-solid reaction steps: a separation step, in which the cladding, the bulk constituent of the fuel, is separated from the uranium, a minor constituent of the fuel; and a fluorination step, in which the uranium is recovered through the production of the volatile hexafluoride. The reactions are conducted in a fluid bed of high-fired alumina, which serves as a heat-transfer medium. Processing of these two types of fuels differs mainly in the initial separation step: Hydrogen chloride is used to remove the aluminum as the volatile chloride; the hydrogen fluoride-oxygen mixture is employed to destroy the stainless-steel matrix by producing an oxide mixture which remains with the alumina.
Chemical Engineering Division Research Highlights
| Author | : R. C. Vogel |
| Publisher | : |
| Total Pages | : 122 |
| Release | : 1969 |
| Genre | : Analytical chemistry |
| ISBN | : |
