Obtaining Hydrogen Fluoride During the Interaction of Uranium Hexafluioride with Hydrogen and Oxygen in a Combustion Regime. Experiment

Obtaining Hydrogen Fluoride During the Interaction of Uranium Hexafluioride with Hydrogen and Oxygen in a Combustion Regime. Experiment

In the course of experiments on a pilot plant with a vertical cylindrical reactor of the “tunnel burner” type whose inside diameter is equal to 142 mm, it has been established that when UF 6 , H 2 , and O 2 with a nearly 1:3:1 molar ratio respectively and a cold-mixture-flow Reynolds number of the o...

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Veröffentlicht in:Journal of engineering physics and thermophysics 2021-09, Vol.94 (5), p.1304-1311
Hauptverfasser: Pashkevich, D. S., Alekseev, Yu. I., Mukhortov, D. A., Kambur, P. S., Petrov, V. B., Bazhenov, D. A., Zimin, A. R., Smolkin, P. A., Kapustin, V. V.
Format: Artikel
Sprache:eng
Schlagworte:
Ammonia
Classical Mechanics
Cold flow
Combustion
Complex Systems
Engineering
Engineering Thermodynamics
Flow velocity
Fluid dynamics
Fluid flow
Fluorides
Fluorine
Heat and Mass Transfer
Hydrofluoric acid
Hydrogen
Hydrogen fluoride
Industrial Chemistry/Chemical Engineering
Reynolds number
Thermodynamics
Uranium
Uranium dioxide
Uranium hexafluoride
Uranium oxides
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Zusammenfassung:In the course of experiments on a pilot plant with a vertical cylindrical reactor of the “tunnel burner” type whose inside diameter is equal to 142 mm, it has been established that when UF 6 , H 2 , and O 2 with a nearly 1:3:1 molar ratio respectively and a cold-mixture-flow Reynolds number of the order of 10,000 are fed to the reactor, a stable flame of diffusion combustion is formed. It is initiated by a self-igniting fluorine-ammonia pair at a fluorine flow rate of the order of 0.5% of the UF 6 flow rate. The major uranium-bearing product of the flame process was a mixture of uranium oxides, mainly UO 2 and U 3 O 8 , in which fluorine covalent-bonded to uranium was present in the amount 0.1–3% mainly in the form of UF 4 and UO 2 F 2 . The major fluorine-containing product was hydrofluoric acid with a content of hydrogen fluoride higher than 95%. From the data obtained, a technology can be developed for obtaining anhydrous hydrogen fluoride from depleted uranium hexafluoride.
ISSN:1062-0125
1573-871X
DOI:10.1007/s10891-021-02411-9