The Need

It is essential to meet the safeguard requirements in liquid-fueled molten salt reactors, fuel salt transportation, and fuel cycle processes and to develop effective methods for measuring and monitoring the mass of molten fuel salt or coolant salt. However, due to the complex and dynamic nature of liquid-fueled molten salt reactors, such as the diversity in fuel types, fuel processing, and fuel cycles, existing approaches are complex and challenging to obtain.

The Technology

This technology describes a containment system for heating and off-gassing radioactive materials to determine radioactive tracer dilution (RTD), a measurement of the radioactivity of isotopes. The device accommodates a 20 mL sample in a sealed, high-temperature chamber. In practice, the chamber is pierced and vented with a stainless needle that controls off-gassing and measurement. Thus far, the inventors have prototyped the device and shown proof of concept and sample extraction.

Commercial Applications

This invention can be used with nuclear energy facilities to measure the radioactivity of isotopes for the following purposes: nuclear medicine and medical research, environmental monitoring, radioactive waste management, industrial processes,
scientific research, regulatory compliance, and pharmaceutical production.

Benefits/Advantages

Compared to RTD measurement methods, this invention provides a safe and potentially more accurate means for radioactivity.

Patent Protection

• U.S. Provisional patent application filed