Wallen, Zane scite author profile

The Advanced Fuels Campaign (AFC) within the US Department of Energy Office of Nuclear Energy (DOE-NE) supported the conception and initial demonstration of the miniature fuel (MiniFuel) irradiation capability in the High Flux Isotope Reactor (HFIR) at Oak Ridge National Laboratory. These MiniFuel experiments are a key component of a larger effort to accelerate the qualification of novel fuel concepts and to reduce uncertainty in fuel performance models. MiniFuel experiments to date have been conducted in HFIR's outer vertical experimental facility (VXF) positions. However, there is motivation to achieve irradiation temperatures and fuel burnup accumulation rates greater than what is achievable in the VXF positions to explore high-temperature phenomena and further accelerate fuel qualification. Therefore, MiniFuel irradiation experiments are being considered in HFIR's removable beryllium region, which is closer to the fueled core than the VXF region. This report summarizes the design modifications to the MiniFuel irradiation vehicle needed to enable high-temperature (i.e., >1,000°C) irradiation tests with rapid burnup accumulation. Modifications to MiniFuel Vehicle to Enable Higher Temperature UO2 Irradiation Capabilities

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Testing and Qualification of Molybdenum Subcapsule Welds for MiniFuel Experiments

Howard¹,

Bryant²,

Zane³

et al. 2022

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Wallen, Zane

Analysis and Design for Irradiation of High Power TRISO Fuel Compact Specimens in HFIR

Simulation of a TRISO MiniFuel irradiation experiment with data-informed uncertainty quantification

Irradiation of MiniFuel Targets Bearing TRISO Fuel Compacts (Status Report)

Modifications to MiniFuel Vehicle Needed to Enable Higher Temperature UO<sub>2</sub> Irradiation Capabilities (Summarizing Issue Report)

Testing and Qualification of Molybdenum Subcapsule Welds for MiniFuel Experiments

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