松耦合线圈在SBO通过CB混凝土墙组合WPT等效电路的诊断与建模

K. Koo, Soo Woon Park, Seong Hwan Park, K. Oh
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引用次数: 1

摘要

根据美国联邦法规10 CFR 50.2,核电站中的SBO(站停电)是指开关设备母线的电源完全丢失,包括现场应急交流电源系统以及核电站的组成部分。在这种情况下,出现了无法向测量系统供电的情况,如日本福岛第一核电站事故。针对这种情况,我们编写了仿真代码,提出了一种新的替代方法,即松散耦合线圈通过容器壁提供无线电源。CB钢筋混凝土试件无线电源的传输输出作为4 ~ 20mA等效电路模型的输入,该电路为可配置RLC无源元件的软线连接方式。该模型中使用的代码的特殊功能是应用一个输入参考脉冲,根据环境温度条件的范围获得电路无源元件的温度响应特性。此时,温度响应特性对输入施加参考脉冲信号,根据核电站事故工况下温度变化范围分析输出变化量的异常信号模式。在这种情况下,通过WPT计算得到的传输效率在约1%的范围内。此时,等效电路模型中的R-C无源元件可应用温度扫描范围为27℃至750℃的脉冲参数输出。
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Diagnosis and Modelling of Equivalent Circuit Combining WPT by Loosely Coupled Coils through CB Concrete Walls at SBO
According to 10 CFR 50.2, SBO (Station Blackout) in nuclear power plants represents a complete loss of a power source to the switchgear bus, including on-site emergency AC power systems as well as an integral part of a nuclear power plant. In this case, there was a situation where electric power could not be supplied to the measurement system, such as an accident at the No. 1 nuclear power plant in Fukushima, Japan. With simulation code to cope with this situation, we have prepared a new alternative method of loosely coupled coils to supply wireless power through container walls. The transmission output of wireless power of the CB reinforced concrete test piece is supplied as the input of the 4 ~ 20mA equivalent circuit model, and this circuit is a cord connection method that can be configured with RLC passive elements. The special function of the code used in this model is to apply an input reference pulse to obtain the temperature response characteristics of the circuit passive elements according to the range of ambient temperature conditions. At this time, the temperature response characteristic applies a reference pulse signal to the input to analyze the abnormal signal pattern of the output change amount according to the temperature changing range in the NPP accident condition. In this case, the results of the transmitted efficiency calculation get in the range of about ~ 1% by WPT. At that time, a pulse parameter output with a temperature sweep range of 27 °C to 750 °C can be applied with the R-C passive element in the equivalent circuit model.
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