THE PREDICTION OF STARTUP TEST WITH LOAD REJECTION AND PARAMETRIC STUDY OF SBPCS FOR LUNGMEN NUCLEAR POWER PLANT
A Lungmen RETRAN-3D model has been constructed to predict the transient behaviors for startup test, furthermore verify the acceptance criteria specified in the documents of startup test procedure. This study focuses on the prediction of the startup test with Load Rejection (LR) with bypass and the parametric analysis of lead-lag time constants in pressure regulator. For the analysis of LR with bypass, the major mitigation functions, i.e., Selected Control Rods Run-In (SCRRI) and turbine bypass function, are simulated to examine whether scram is initiated during the transient or not. The analytic results show the reactor is brought to a steady state without scram. The neutron flux in the final state is around 34 %, and the pressure regulator sensed maximum pressure rise is limited to a maximum of 3kPa. The result also shows that the 110 % steam bypass capacity is capable to mitigate the power increase caused by the positive reactivity insertion as a result of pressure-wave-induced void collapse. For the parametric analysis of lead-lag time constants in pressure regulator, the time domain response of Steam Bypass and Pressure Control System (SBPCS) is demonstrated by a step change of pressure setpoint and different combinations of lead-lag time constants defined in pressure regulator. The results show that the responses, i.e., response time and overshooting, are minimized when the lag time constant is between 4 to 6 seconds and the lead time constant is 50 % to 70 % of lag time constant. The analysis result of SBPCS provides the trend as a reference for the adjustment of lead-lag time constants during the future Lungmen startup test.
Chiung-Wen Tsai Chunkuan Shih Hao-Tzu Lin Jong-Rong Wang Yng-Ruey Yuan Su-Chin Cheng Fong-Lun Lin
Department of Engineering and System Science,National Tsing Hua University Hsinchu, Taiwa Department of Engineering and System Science,Institute of Nuclear Engineering and Science,National T Institute of Nuclear Energy Research Longtan Township, Taoyuan County, Taiwan Department of Nuclear Engineering, Taiwan Power Company Taipei City, Taiwan
国际会议
18th International Conference on Nuclear Engineering(第18届国际核能工程大会 ICONE 18)
西安
英文
1-6
2010-05-17(万方平台首次上网日期,不代表论文的发表时间)