科技报告详细信息
Chemical Speciation of Neptunium in Spent Fuel. 1st Progress Report
Czerwinski, Ken ; Sherman, Christi ; Reed, Don
Massachusetts Institute of Technology
关键词: Radioactive Waste Disposal;    Neptunium Compounds;    Neptunium;    Waste Forms;    11 Nuclear Fuel Cycle And Fuel Materials;   
DOI  :  10.2172/761828
RP-ID  :  None
RP-ID  :  FG03-99SF21903
RP-ID  :  761828
美国|英语
来源: UNT Digital Library
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【 摘 要 】

This project will examine the chemical speciation of neptunium in spent nuclear fuel. The R&D fields covered by the project include waste host materials and actinide chemistry. Examination of neptunium is chosen since it was identified as a radionuclide of concern by the NERI workshop. Additionally, information on the chemical form of neptunium in spent fuel is lacking. The identification of the neptunium species in spent fuel would allow a greater scientific based understanding of its long-term fate and behavior in waste forms. Research to establish the application and development of X-ray synchrotrons radiation (XSR) techniques to determine the structure of aqueous, adsorbed, and solid actinide species of importance to nuclear considerations is being conducted at Argonne. These studies extend current efforts within the Chemical Technology Division at Argonne National Laboratory to investigate actinide speciation with more conventional spectroscopic and solids characterization (e.g. SEM, TEM, and XRD) methods. Our project will utilize all these techniques for determining neptunium speciation in spent fuel. We intend to determine the chemical species and oxidation state of neptunium in spent fuel and alteration phases. Different types of spent fuel will be examined. Once characterized, the chemical behavior of the identified neptunium species will be evaluated if it is not present in the literature. Special attention will be given to the behavior of the neptunium species under typical repository near-field conditions (elevated temperature, high pH, varying Eh). This will permit a timely inclusion of project results into near-field geochemical models. Additionally, project results and methodologies have applications to neptunium in the environment, or treatment of neptunium containing waste.

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