科技报告详细信息
Performance of Trasuranic-Loaded Fully Ceramic Micro-Encapsulated Fuel in LWRs Interim Report, Including Void Reactivity Evaluation
Michael A. Pope ; Brian Boer ; Gilles Youinou ; Abderrafi M. Ougouag
关键词: BURNUP;    CERAMICS;    CONFIGURATION;    DESIGN;    DOPPLER COEFFICIENT;    EVALUATION;    FUEL PARTICLES;    FUEL PINS;    MATRIX MATERIALS;    PERFORMANCE;    PLUTONIUM;    REACTIVITY COEFFICIENTS;    REACTOR TECHNOLOGY;    SPENT FUELS;    URANIUM;    WATER FCM;    fully ceramic micro-encapsulated;    LWR;    transmutation;    TRISO;   
DOI  :  10.2172/1013719
RP-ID  :  INL/EXT-11-21343
PID  :  OSTI ID: 1013719
Others  :  TRN: US1102686
学科分类:核能源与工程
美国|英语
来源: SciTech Connect
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【 摘 要 】

The current focus of the Deep Burn Project is on once-through burning of transuranice (TRU) in light water reactors (LWRs). The fuel form is called Fully-Ceramic Micro-encapsulated (FCM) fuel, a concept that borrows the tri-isotropic (TRISO) fuel particle design from high-temperature reactor technology. In the Deep Burn LWR (DB-LWR) concept, these fuel particles would be pressed into compacts using SiC matrix material and loaded into fuel pins for use in conventional LWRs. The TRU loading comes from the spent fuel of a conventional LWR after 5 years of cooling. Unit cell calculations have been performed using the DRAGON-4 code in order assess the physics attributes of TRU-only FCM fuel in an LWR lattice. Depletion calculations assuming an infinite lattice condition were performed with calculations of various reactivity coefficients performed at each step. Unit cells containing typical UO2 and MOX fuel were analyzed in the same way to provide a baseline against which to compare the TRU-only FCM fuel. Loading of TRU-only FCM fuel into a pin without significant quantities of uranium challenges the design from the standpoint of several key reactivity parameters, particularly void reactivity, and to some degree, the Doppler coefficient. These unit cells, while providing an indication of how a whole core of similar fuel would behave, also provide information of how individual pins of TRU-only FCM fuel would influence the reactivity behavior of a heterogeneous assembly. If these FCM fuel pins are included in a heterogeneous assembly with LEU fuel pins, the overall reactivity behavior would be dominated by the uranium pins while attractive TRU destruction performance of the TRU-only FCM fuel pins may be preserved. A configuration such as this would be similar to CONFU assemblies analyzed in previous studies. Analogous to the plutonium content limits imposed on MOX fuel, some amount of TRU-only FCM pins in an otherwise-uranium fuel assembly may give acceptable reactivity performance. Assembly calculations will be performed in future work to explore the design options for heterogeneous assemblies of this type and their impact on reactivity coefficients.

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