堆芯燃料组件域横流轮系结构与特性研究

Research on Structure and Characteristics of Gear System of Crossflow in Flow Domain of Reactor Core

  • 摘要: 反应堆冷却剂流动与传热状态的空间差异性易致局部高温,在平均温度安全的条件下引入烧毁熔融风险,堆芯精细化计算流体动力学计算分析能够细致识别堆芯亚毫米级的流体速度、压力、温度等参量极值与分布状态,然而传统研究多对流阻、热阻、流动交混等状态进行线、面、体宏观积分来衡量,堆芯千万级或亿级网格的精细化数据被转化为数百或数千数量的集总数据,物理状态由三维降低到二维或一维,空间分辨率从亚毫米级降低到分米级或更低,精细数据不能有效、充分利用。为此,本文开展堆芯精细流动特性研究,探究了流体的自发构形特性,并参考机械齿轮系原理,设计了基于流轮系的精细流动分析方法;探究了堆芯组件域的轮系结构在储能、减阻、降低能量品质蜕变速率、自发优化、维持大域流动交混等特性。结果表明,堆芯燃料组件搅混翼下游流动通过自发构形,使轮系结构逐渐成熟,流动的湍流秩序逐渐协调,经量化分析确认该过程更有利于减缓横流动能的衰减速率;同时堆芯5×5棒束燃料组件等小域流动在反映流动轮系结构上存在偏差,致使质动能交混研究存在一定的局限性。

     

    Abstract: The spatial difference of the thermal-hydraulic state in reactor core is easy to lead to local high temperature, so the risk of material burning and fuel melting is introduced under the safe conditions of average temperature. The fine computational fluid dynamics analysis of reactor core can carefully identify the extreme values and distribution of sub-millimeter fluid velocity, pressure, temperature and other parameters in reactor core. However, in traditional research, the states of flow resistance, thermal resistance, flow mixing and other states are measured by the macroscopic integration of lines, surfaces and volumes, and the fine data of tens of millions or hundreds of millions of computing grids are mostly converted into hundreds or thousands of sets of average data, the physical state is reduced from three-dimensional to two-dimensional or one-dimensional state, and the spatial resolution is reduced from submillimeter to decimeter or lower, and the fine data cannot be effectively and fully utilized. Therefore, the fine flow characteristics of reactor core are studied. The distribution of secondary flow intensity, temperature, and temperature inhomogeneity coefficients in the axial direction in the domain of a 15×15 rod bundle fuel assembly was first analyzed, and the flow characteristics induced by the spacer grid with the mixing vane were found to be periodic on each span domain. After that, the spontaneous configuration characteristics of the fluid were explored, and the fine flow analysis method based on the mechanical gear system was designed and named as flow gear system. The structure of the flow gear system in the fluid domain and the characteristics of energy storage, drag reduction, the rate of decline in energy quality, spontaneous optimization, maintenance of large flow mixing and flow identification were investigated, and the order of the turbulence of reactor core was clarified. In addition, the transverse flow character with fixed-wall conditions in a small domain like 5×5 rod bundle analyzed with flow gear system clarifies the limitations, which was unable to identify the large flow gear and long transverse flow structures, so that some thermal-hydraulic physical information was lost. The results show that the transverse flow analysis strategy based on the flow gear system is valuable to guide the research of the transverse flow in fuel assembly, and the important roles in the transverse flow keeping the quality of kinetic energy have been clarified, which can be seen as a new and useful strategy and methodology for the fine thermal-hydraulic data in reactor core.

     

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