Experimental Results for SimFuels | |
Buck, Edgar C. ; Casella, Andrew M. ; Skomurski, Frances N. ; MacFarlan, Paul J. ; Soderquist, Chuck Z. ; Wittman, Richard S. ; Mcnamara, Bruce K. | |
Pacific Northwest National Laboratory (U.S.) | |
关键词: Simfuel; Radiolysis; Used Nuclear Fuel; Repository; Spent Fuel; | |
DOI : 10.2172/1069210 RP-ID : PNNL-21646 RP-ID : AC05-76RL01830 RP-ID : 1069210 |
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美国|英语 | |
来源: UNT Digital Library | |
【 摘 要 】
Assessing the performance of Spent (or Used) Nuclear Fuel (UNF) in geological repository requires quantification of time-dependent phenomena that may influence its behavior on a time-scale up to millions of years. A high-level waste repository environment will be a dynamic redox system because of the time-dependent generation of radiolytic oxidants and reductants and the corrosion of Fe-bearing canister materials. One major difference between used fuel and natural analogues, including unirradiated UO2, is the intense radiolytic field. The radiation emitted by used fuel can produce radiolysis products in the presence of water vapor or a thin-film of water that may increase the waste form degradation rate and change radionuclide behavior. To study UNF, we have been working on producing synthetic UO2 ceramics, or SimFuels that can be used in testing and which will contain specific radionuclides or non-radioactive analogs so that we can test the impact of radiolysis on fuel corrosion without using actual spent fuel. Although, testing actual UNF would be ideal for understanding the long term behavior of UNF, it requires the use of hot cells and is extremely expensive. In this report, we discuss, factors influencing the preparation of SimFuels and the requirements for dopants to mimic the behavior of UNF. We have developed a reliable procedure for producing large grain UO2 at moderate temperatures. This process will be applied to a series of different formulations.
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