摘要
为真实反映事故工况下反应堆冷却剂系统瞬态内流过渡过程及水力载荷冲击,针对“华龙一号”反应堆及一回路系统,建立了高精度三维闭式系统瞬态流动计算方法,得到了该过渡过程中反应堆及一回路系统管路内压力波震荡规律及瞬态水力载荷特性。研究表明:在核主泵转子卡滞结束时,核主泵出口处流量降低到稳定运行时的81.3%。在卡转子过渡过程中,系统管路内最大压力峰值位于核主泵入口截面处,为16.00 MPa,小压力谷值位于核主泵出口截面处,为15.01 MPa,最终系统内各监测点的压力趋于参考压力15.50 MPa。受反应堆冷却剂系统管路布置方式与核主泵卡转子事故的双重影响,各截面的流体速度呈现明显的不均匀分布,并产生了明显的涡流。系统各壁面水力载荷变化规律与系统压力脉动变化规律一致,最大载荷力峰值位于过渡段第一个弯头处的W3壁面处,为3.163×10^(6)N;最小载荷力谷值位于反应堆压力容器入口处弯头的W12壁面处,为9.125×10^(5)N。本数值预测方法可为主泵卡转子事故工况下反应堆冷却剂系统管路的设计与安全性评估提供技术支持。
In order to truly reflect the transient internal flow transition process and hydraulic load impact of the reactor coolant system under accident conditions,a high-precision threedimensional closed system transient flow calculation method was established for the HPR1000 reactor and its primary system,and the pressure wave oscillation law and transient hydraulic load characteristics of the pipeline of the reactor and primary system during the transition process were obtained.The results show that:in the end of the reactor coolant pump rotor seizure,the flow rate at the reactor coolant pump outlet decreased to 81.3%of that in stable operation.During the transition process of the rotor seizure,the maximum pressure peak value in the system pipeline is located at the inlet section of the reactor coolant pump,which is 16.00 MPa;the minimum pressure valley value is located at the outlet section of the reactor coolant pump,which is 15.01 MPa.Finally,the pressure of each monitoring point in the system tends to the reference pressure of 15.50 MPa.Under the dual influence of the piping layout of reactor coolant system and the rotor seizure accident of reactor coolant pump,the fluid velocity of each section shows obvious uneven distribution,and obvious eddy currents occurs.The variation rule of hydraulic load on each wall of the system is consistent with the variation rule of system pressure pulsation.The maximum load force peak is located at the W3 wall at the first elbow of the transition section,which is 3.163×10^(6)N;the minimum load force valley value is located at the W12 wall of the elbow at the inlet of the reactor pressure vessel,which is 9.125×10^(5)N.This numerical prediction method can provide technical support for the design and safety assessment of the reactor coolant pipeline under the condition of the reactor coolant pump rotor seizure.
作者
崔怀明
谭鑫
王岩
匡成骁
苏舒
Cui Huaiming;Tan Xin;Wang Yan;Kuang Chengxiao;Su Shu(Science and Technology on Reactor System Design Technology Laboratory,Nuclear Power Institute of China,Chengdu,610213,China)
出处
《核动力工程》
EI
CAS
CSCD
北大核心
2024年第1期230-236,共7页
Nuclear Power Engineering
关键词
卡转子事故
反应堆冷却剂系统
瞬态压力
水力载荷
数值模拟
Rotor seizure accident
Reactor coolant system
Transient pressure
Hydraulic load
Numerical simulation