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控制棒驱动机构传热机理与隔热套性能研究
引用本文:周肖佳,王丰,刘刚,林绍萱,毛飞,詹阳烈,张升,顾汉洋. 控制棒驱动机构传热机理与隔热套性能研究[J]. 原子能科学技术, 2015, 49(12): 2245-2250. DOI: 10.7538/yzk.2015.49.12.2245
作者姓名:周肖佳  王丰  刘刚  林绍萱  毛飞  詹阳烈  张升  顾汉洋
作者单位:1.上海核工程研究设计院,上海200233;2.上海交通大学 核科学与工程学院,上海200240
摘    要:控制棒驱动机构(CRDM)依靠强制冷却措施维持工作温度。本文针对CRDM复杂的轴向传热机理,基于冷热侧流动的假设建立热虹吸自然对流分析模型,计算得到轴向温度分布及隔热套内径与热虹吸传热量之间的关系曲线;同时进行验证试验,测量不同情况下CRDM内外轴向温度分布和总散热量。通过分析和试验对比证明:基于假设的分析模型能模拟实际情况,热虹吸传质传热是CRDM轴向传热的主要途径,设置隔热套能有效抑制热虹吸、减少散热量。

关 键 词:控制棒驱动机构   隔热套   轴向传热   温度分布   散热量

Heat Transfer Mechanism and Thermal Sleeve Performance of Control Rod Drive Mechanism
ZHOU Xiao-jia,WANG Feng,LIU Gang,LIN Shao-xuan,MAO Fei,ZHAN Yang-lie,ZHANG Sheng,GU Han-yang. Heat Transfer Mechanism and Thermal Sleeve Performance of Control Rod Drive Mechanism[J]. Atomic Energy Science and Technology, 2015, 49(12): 2245-2250. DOI: 10.7538/yzk.2015.49.12.2245
Authors:ZHOU Xiao-jia  WANG Feng  LIU Gang  LIN Shao-xuan  MAO Fei  ZHAN Yang-lie  ZHANG Sheng  GU Han-yang
Affiliation:1.Shanghai Nuclear Engineering Research & Design Institute, Shanghai 200233, China; 2.School of Nuclear Science and Engineering, Shanghai Jiao Tong University, Shanghai 200240, China
Abstract:The control rod drive mechanism (CRDM) relies on forced cooling measure to maintain its operating temperature. For the complex issue of CRDM heat transfer mechanism, the thermo-siphoning natural heat convection analysis model was established based on the hypothesis which divides coolant inside CRDM into hot side and cold side, meanwhile, the experiment to measure CRDM inside/outside temperature distribution and total heat dissipating capacity under different conditions was conducted. Through comparison of analysis results and experimental data, the analysis model based on hypothesis can correctly simulate CRDM heat transfer in real situation, the thermo siphoning heat and mass transfer is the major way of CRDM axial heat transfer, and the use of thermal sleeve can weaken thermo-siphoning and reduce heat dissipating capacity effectively.
Keywords:control rod drive mechanism  thermal sleeve  axial heat transfer  temperature distribution  heat dissipating capacity
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