模拟严重事故条件下压水堆安全相关电侵彻的绝缘性能

Watanabe Aiki, Ikeda Masaaki, Minakawa Takefumi, H. Naoshi, Ohki Yoshimichi
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引用次数: 2

摘要

核电厂的电穿透(EPs)在保持主安全壳的密闭性和从内部到外部连接电缆方面发挥着重要作用。被归类为“严重事故(SA)设备”的安全相关EPs,在其整个使用寿命期间,在正常使用条件下老化,并在各种SA环境条件下保持其预期功能。为了研究EPs在SA环境中的绝缘性能,我们测试了两个相当于日本压水堆中使用的EPs。一个EP试样在100℃、100 Gy/h的热辐射同步环境中预时效几千小时,以模拟在指定的使用期间引起的降解。另一种EP试样未经预时效处理。为了模拟SA期间辐射引起的降解,以7 kGy/h的剂量率辐照总剂量为500 kGy的EPs。随后,将EP试样在155℃、0.45 MPaG的饱和蒸汽中暴露168 h。在蒸汽暴露期间,监测每个EP试样中电缆绝缘芯线之间的绝缘电阻。我们在蒸汽暴露期间测量的预老化和未预老化EP试样的最小绝缘电阻分别约为109和108Ω,证实它们保持了足够好的绝缘性能。
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Insulation Performance of Safety-Related Electrical Penetrations for Pressurized Water Reactors under Simulated Severe Accident Conditions
Electrical penetrations (EPs) in nuclear power plants play important roles in keeping a primary containment vessel airtight and in connecting electrical cables from the inside to the outside. Safety-related EPs, which are categorized as “severe-accident (SA) equipment,” are required to maintain their intended functions under various SA environmental conditions after having been aged under the normal operating conditions throughout their service lives. To investigate the insulation performance of EPs in a SA environment, we tested two EPs that are equivalent to those used in pressurized water reactors in Japan. One EP specimen was pre-aged in a concurrent thermal and radiation environment at 100°C and 100 Gy/h for several thousand hours to simulate the degradation induced during the designated service period. The other EP specimen was used without pre-aging. To simulate the degradation induced by radiation during a SA, the EPs were irradiated with gamma rays to a total dose of 500 kGy at a dose rate of 7 kGy/h. Subsequently, the EP specimens were exposed to saturated steam at 155°C and 0.45 MPaG for 168 h. The electrical insulation resistance between the insulated cores of cables in each EP specimen were monitored during the steam exposure. The minimum insulation resistances that we measured during the steam exposure for EP specimens with and without the pre-aging are about 109 and 108Ω, respectively, confirming that they retain sufficiently good insulation performance.
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