| 压水动力反应堆燃料元件安全性的监测与分析 |
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| 引用本文: | 王月兴,马晓林,云昌全,曲善奎.压水动力反应堆燃料元件安全性的监测与分析[J].原子能科学技术,1996,30(4):307-311. |
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| 作者姓名: | 王月兴 马晓林 云昌全 曲善奎 |
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| 作者单位: | 上海海军医学研究所 |
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| 摘 要: | 为了对1座压水型动力反应堆作燃料元件破损的现场监测,计算了一些裂变产物的主要γ光子用76.2mm×76.2mmNal探测器测量时产生的光电峰相对计数率随反应堆启动不同时间的变化,并作了监测中的干扰因素分析。计算和分析结果表明:在元件安全性监测中,最适合选择的γ光子能量是220.9keV(89Kr)、402.7keV(87Kr)、196.3keV(88Kr)、529.8keV(133I)和81keV(133xe)。在监测中存在的主要干扰因素是高能γ射线产生的湮没辐射、wal探测器周围pb屏蔽上产生的75keVX射线及由19O和16N产生的γ射线。在1座反应堆2次事故排除的元件安全性监测中,分析方法成功地得到了应用。
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| 关 键 词: | 反应堆 燃料元件 破损探测 安全分析 |
MONITORING AND ANALYSIS OF FUEL ELEMENT SAFETY FOR THE PRESSURIZED-WATER REACTER |
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| Wang Yuexing, Ma Xiaolin, Yum Changquan, Qn Shangkui.MONITORING AND ANALYSIS OF FUEL ELEMENT SAFETY FOR THE PRESSURIZED-WATER REACTER[J].Atomic Energy Science and Technology,1996,30(4):307-311. |
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| Authors: | Wang Yuexing Ma Xiaolin Yum Changquan Qn Shangkui |
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| Abstract: | The change of the relative counting rates of the photopeak detected by using f76. 2 mm x76. 2 mm Nal detector from certain fission product with operation time of reactor is calculated for the real-time detection Of fuel element rupture. The main factors of interfering with element rupture detection are also analyzed. The calculated and analyzed results show that optimum gammaenergy for elememt safety monitoring are 220. 9 keV (89 Kr) \ 402. 7 keV (87 Kr) \ 196. 3 keV(88Kr) .529. 8 keV (133 I) and 81 keV (133Xe), respectively. The interference factors existing inthe monitoring process are annihilation radiation by high energy gamma rays, 75 keV X-rays from Pb shield which is around the Nal detector, and gamma rays from 19 O and 16N. The aboveanalytical method has been successfully applied to the monitoring of element safety in two accidentanalysises of a reactor. |
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| Keywords: | Reactor Fuel element rupture detection Safety analysis Nal detectorInterference factor |
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