Gary A. Harms scite author profile

The Department of Energy is conducting an ongoing investigation of the consequences of taking fuel burnup into account in the design of spent fuel transportation packages. A series of experiments, collectively called the Spent Fuel Safety Experiment (SFSX), has been devised to provide integral benchmarks for testing computer-generated predictions of spent fuel behavior. A set of experiments is planned in which sections of unirradiated fuel rods are interchanged with similar sections of spent PWR fuel rods in a critical assembly. By determining the critical size of the arrays, one can obtain benchmark data for comparison with criticality safety calculations. The integral reactivity worth of the spent fuel can be assessed by comparing the measured delayed critical fuel loading with and without spent fuel. An analytical effort to model the experiments and anticipate the core loadings required to yield the delayed critical conditions runs in parallel with the experimental effort. PURPOSE A key issue related to acceptance of spent fuel burnup credit is the verification of the impact of the composition of the spent fuel on the system multiplication factor. The Spent Fuel Safety Experiment (SFSX) directly addresses this issue. A second issue that SFSX addresses is the effect of axial burnup distribution in spent PWR fuel. The "endeffects" issue has been a pivotal concern since the proposal of burnup credit for storage and transportation of spent PWR fuel. The objective of SFSX is to provide a benchmark This w o~k was suponrted by ihe United S M~S Depsrfrnent of Energy under , DISCLAIMER This report was prepared as an account of work sponsored by an agency of the United States Government. Neither the United States Government nor any agency thereof, nor any of their employees, makes any warranty, express or implied, or assumes any legal liability or responsibility for the accuracy, completeness, or usefulness of any information, apparatus, product, or process disclosed, or represents that its use would not infringe privately owned rights. Reference herein to any specific commercial product, process, or service by trade name, trademark, manufacturer, or otherwise does not necessarily constitute or imply its endorsement, recommendation, or favoring by the United States Government or any agency thereof. The views and opinions of authors expressed herein do not necessarily state or reflect those of the United States Government or any agency thereof.

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Titanium and/or Aluminum Rod-Replacement Experiments in Fully-Reflected Water-Moderated Square-Pitched U(6.90)O<sub>2</sub> Fuel Rod Lattices with 0.67 Fuel to Water Volume Ratio (0.800 CM Pitch)

Harms¹

2016

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Use of Sensitivity and Uncertainty Analysis in the Design of Reactor Physics and Criticality Benchmark Experiments for Advanced Nuclear Fuel

2005

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Neutron Reaction Rate Measurements as Tests of Diffusion Calculations in a Fast Breeder Blanket Facility

Clikeman

Ott

et al. 1985

Nuclear Technology

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Gary A. Harms

Partially-Reflected Water-Moderated Square-Pitched U(6.90)O<sub>2</sub> Fuel Rod Lattices with 0.52 Fuel to Water Volume Ratio (0.855 CM Pitch)

The spent fuel safety experiment

Titanium and/or Aluminum Rod-Replacement Experiments in Fully-Reflected Water-Moderated Square-Pitched U(6.90)O<sub>2</sub> Fuel Rod Lattices with 0.67 Fuel to Water Volume Ratio (0.800 CM Pitch)

Use of Sensitivity and Uncertainty Analysis in the Design of Reactor Physics and Criticality Benchmark Experiments for Advanced Nuclear Fuel

Neutron Reaction Rate Measurements as Tests of Diffusion Calculations in a Fast Breeder Blanket Facility

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