Neutronic design of a PWR fuel assembly with accident tolerant-composite for the long-life core

Van-Khanh Hoang, Viet-Phu Tran, Thi Dung Nguyen
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Abstract

For the future of nuclear power, the design and development of an economical, accident tolerant fuel (ATF) for use in the current pressurized water reactors (PWRs) are highly desirable and essential. It is reported that the composite fuels are advantageous over the conventional UO2 fuel due to their higher thermal conductivities and higher uranium densities. Due to higher uranium densities of the composite fuels, the use of composite fuels would lead to the significant increase of discharged burnup, thereby enhancing fuel cycle economy compared to that of the UO2 fuel. The higher thermal conductivities of composite fuels will increase the fuel safety margins. For implementation of the accident tolerant fuel concept, this study also investigates on the replacement of the conventional Zircaloy-4 cladding with SiC to minimize the hydrogen production due to interaction of water with cladding at high temperatures. In the present work, neutronic investigation of the composite fuels for a PWR has been conducted in comparison with that of the conventional UO2 fuel. Numerical calculations have been performed based on a lattice model using the SRAC2006 system code and JENDL-4.0 data library. Various parameters have been surveyed for designing a fuel with the UO2 and composite fuels such as U-235 enrichment, fuel pin pitch. In order to reduce the excess reactivity, Erbium was selected as a burnable poison due to its good depletion performance. The temperature coefficients including fuel, coolant temperature reactivity coefficients, and both the small and large void reactivity coefficients are also investigated. It was found that it is possible to achieve sufficient criticality up to 100 GWd/t burnups without compromising the safety parameters including that four reactivity coefficients are considered those associated with the fuel temperature, coolant temperature, small (5%) void and large (90%) void. Further analysis of the performance of the UO2 and composite fuels in a full core model of a PWR is being conducted.
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长寿命堆芯耐事故复合材料压水堆燃料组件的中子设计
为了核电的未来,设计和开发一种经济、耐事故的燃料(ATF)用于当前的压水堆(PWRs)是非常需要和必要的。据报道,复合燃料由于具有较高的导热系数和较高的铀密度而优于传统的UO2燃料。由于复合燃料的铀密度较高,使用复合燃料将导致排放燃耗显著增加,从而比UO2燃料提高燃料循环经济性。复合燃料的高导热系数将提高燃料的安全裕度。为了实现耐事故燃料概念,本研究还研究了用SiC取代传统的锆合金-4包层,以最大限度地减少高温下水与包层相互作用产生的氢气。本文对压水堆复合燃料进行了中子研究,并与常规UO2燃料进行了比较。利用SRAC2006系统代码和JENDL-4.0数据库,在格子模型上进行了数值计算。考察了用UO2和复合燃料设计燃料的各种参数,如铀235富集度、燃料销距等。为了降低过量的反应性,选择铒作为可燃毒物,因为它具有良好的耗尽性能。研究了燃料温度系数、冷却剂温度反应性系数、小空隙反应性系数和大空隙反应性系数。研究发现,在不影响安全参数的情况下,达到高达100 GWd/t燃烧的足够临界是可能的,包括四个被认为与燃料温度、冷却剂温度、小(5%)空隙和大(90%)空隙相关的反应性系数。目前正在对压水堆全堆芯模型中UO2和复合燃料的性能进行进一步分析。
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