超铀- uo2燃料双冷VVER-1000组件的中子分析和燃料循环参数

IF 0.5 Q4 NUCLEAR SCIENCE & TECHNOLOGY
Md. Tanvir Ahmed, Afroza Shelley, Md. Nobir Hosen
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引用次数: 0

摘要

摘要:研究了超铀燃料棒与常规UO2燃料棒在VVER-1000双冷机组上的可行性。研究发现,TRU和UO2燃料棒的异质排列有助于提高增殖系数,提高燃料循环参数,并保持参考VVER-1000组件的负多普勒系数。在不同的TRU和UO2燃料棒异质组合中,同样数量的UO2和TRU燃料棒,即模型6,在循环开始时使参考组件的倍增系数提高了7.66%。此外,该模型的燃料循环参数与参考组件相比几乎增加了一倍。TRU棒使参考组件的中子谱稍微变硬,并增加了快速裂变速率。然而,多普勒系数逐渐减小,通量水平随着TRU棒数的增加而降低。综合考虑安全参数和中子行为,模型6 (UO2和TRU燃料棒数量相等)适用于环形燃料堆VVER-1000。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Neutronic Analysis and Fuel Cycle Parameters of Transuranic-UO2 Fueled Dual Cooled VVER-1000 Assembly
Abstract The feasibility of transuranic (TRU) fuel rods has been studied for a dual-cooled VVER-1000 assembly along with the conventional UO2 fuel rods. It has been found that the heterogeneous arrangements of TRU and UO2 fuel rods help to improve the multiplication factor, enhance the fuel cycle parameters and maintain the negative Doppler coefficient of the reference VVER-1000 assembly. Within the different heterogeneous combinations of TRU and UO2 fuel rods, the equal number of UO2 and TRU fuel rods, which is referred to as Model 6 increased the multiplication factor of the reference assembly by 7.66% at the beginning of the cycle. Furthermore, the fuel cycle parameter becomes almost double for this Model in comparison with the reference assembly. TRU rods make the neutron spectrum of reference assembly slightly harder and increase the fast fission rate. However, the Doppler coefficient becomes less negative, and flux level decreases with increasing the number of TRU rods. By considering the safety parameters and neutronic behavior, Model 6 (equal number of UO2 and TRU fuel rods) is to be effective for the annular fueled VVER-1000 reactor.
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来源期刊
CiteScore
1.30
自引率
0.00%
发文量
56
期刊介绍: The Journal of Nuclear Engineering and Radiation Science is ASME’s latest title within the energy sector. The publication is for specialists in the nuclear/power engineering areas of industry, academia, and government.
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