Scientists who perform research in the Radiochemistry Laboratory strive to answer the fundamental questions that will lead to viable solutions for advanced reactor deployment, management of used nuclear fuel materials, and development of novel materials that are intended for use in extreme environments.
The Radiochemistry Laboratory supports:
- Fundamental thermochemical and thermophysical property measurements for materials that are essential for fuel, core, and moderator development for advanced reactors.
- Heat transfer mechanisms for advanced reactor coolants that necessitate high temperature sensitivity studies
- Corrosion and compatibility studies for core and structural materials
- Recovery of critical materials for multicomponent waste streams, including radioactive materials
- Recent experimental work in the Radiochemistry Laboratory has supported a variety of projects that are critical to nuclear fuel & materials development, as well as waste management, for the Idaho National Laboratory and its university partners. A few examples include:
- Rare earth and lanthanide separation studies for used nuclear fuel management
- Electrochemical corrosion studies for material degradation analysis
- Redox investigations for critical material recovery
- Laser-based spectral analysis tools for molten salt sampling system
These projects are accommodated by a collection of state-of-the-art equipment, including three inert-environment regenerative gloveboxes and five chemical fume hoods (one of which is exclusive to radioactive material experiments). Equipment necessary to support high-temperature experiments (muffle furnaces, etc.) are also available for use.
- Lab layout (click on image to enlarge):
- Fundamental property determination for advanced reactor coolants, such as molten sodium and salts (fluoride and chloride-based)
- Fluid/structure interaction studies for advanced reactor coolant and structural material candidates
- Chemical interaction studies for advanced high-temperature coolantsAnalysis of heat transfer systems for high-temperature reactor systems
- Thermophysical property studies for advanced fuel concepts, such as those based on graphite/ceramic matrices
RCL Virtual Tour