Joseph M Giaquinto Senior Technical Strategist Contact 865.574.4887 | giaquintojm@ornl.gov All Publications Sister Rod Destructive Examinations (FY23) Appendix D: Fission Gas, Fuel Burnup, and Fuel Isotopic Measurements Analytical Report for Nuclear Regulatory Commission High Burnup Fuel Specimens The need for speed – Burnup determination of spent nuclear fuel New Radiochemical Assay Experiments to Improve the Validation Basis for High Burnup Fuel Preservation and Characterization of X-10 Graphite Reactor Slugs Nuclide Inventory Validation: Radiochemical Assay Data Quality and Modeling Challenges in Benchmark Models Development... Update on the High Precision Titration Method for Uranium Assay Supported by NBL Program Office... New Capability at ORNL: High Precision Uranium Titration Assessment of Needs for a Neptunium Certified Reference Material Sister Rod Destructive Examinations (FY20) Appendix D, Fission Gas Analysis, Fuel Rod Burnup and Isotopic Measurements Nuclear Analytical and Chemical Isotopics Laboratories Sample Analytical Plan for the Sister Rod Spent Nuclear Fuel Specimens. Status Update on the High Precision Isotopic Measurements on High Burnup LWR Fuel in 2020 Inline gamma-spectrometry of fission product elements after rapid high-pressure ion chromatographic separation RAPID: The Development and Application of a Hybrid High Pressure Ion Chromatography and Inductively Coupled Plasma Mass Spectrometry Method for the Direct Analysis of Irradiated Materials Establishing a High-Precision Titrimetric Laboratory at Oak Ridge National Laboratory to Support the NBL Program Office’s Mission Destructive Examinations of High Burnup Pressurized Water Reactor Fuel Rods Rapid concentration and isotopic measurements of ultra-trace 235U fission products with comparison to an ORIGEN isotope depletion model Fission Gas Composition, Rod Internal Pressure, And Rod Free Volume of High Burnup Pressurized Water Reactor Fuel Rods Fission Gas Composition, Rod Internal Pressure, and Rod Free Volume of High Burnup Pressurized Water Reactor Fuel Rods Fission Gas Composition, Rod Internal Pressure, and Rod Free Volume of High Burnup Pressurized Water Reactor Fuel Rods Fission Gas Composition, Rod Internal Pressure, And Rod Free Volume of High Burnup Pressurized Water Reactor Fuel Rods Fission Gas Composition, Rod Internal Pressure, and Rod Free Volume of High Burnup Pressurized Water Reactor Fuel Rods Fission Gas Composition, Rod Internal Pressure, and Rod Free Volume of High Burnup Pressurized Water Reactor Fuel Rods... Fission Gas Composition, Rod Internal Pressure, And Rod Free Volume of High Burnup Pressurized Water Reactor Fuel Rods Fission Gas Composition, Rod Internal Pressure, and Rod Free Volume of High Burnup Pressurized Water Reactor Fuel Rods... Pagination Current page 1 Page 2 Page 3 Next page ›› Last page Last » Key Links ORCID Organizations Physical Sciences Directorate Chemical Sciences Division Nuclear Analytical Chemistry Section