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The Nuclear Fuel Cycle

Conversion

In the Uranium Conversion stage, yellowcake (U₃O₈) powder is dissolved in nitric acid (HNO₃) and converted to uranium hexafluoride (UF₆) or, previously, uranium metal (U). UF₆ is commonly known as “hex”.

Why is conversion necessary?

Advantages of uranium hexafluoride (UF₆), or “hex”, include…

Physical Form

Hex is a crystalline solid at room temperature – ideal for transportation.

Temperature Dependence

Hex sublimes to a gas at a relatively low temperature, 56.5 °C – ideal for enrichment processes.

Pressure Dependence

At high pressures, hex has a liquid phase – ideal for being pumped around chemical processes.

Properties of Fluorine

Fluorine is mono-isotopic – ideal for enrichment processes.

How is conversion carried out?

1. Dissolution

2. Reduction

3. Kiln Reaction

4. Fluidised Bed Reaction

1. Dissolution

2. Reduction

3. Kiln Reaction

4. Fluidised Bed Reaction

Page Author

Adam Piatt

References

Graduate Awareness in Nuclear (GAIN) Course, NSAN

Conversion and Reconversion, World Nuclear Association

Uranium Conversion, Nuclear-Power.com

Images

Uranium Hexafluoride, Wikimedia Commons – Licence CC BY-SA 3.0 DEED

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