Jin Lu, Peng Nie, Ren Ren, Yaping Guo, Qi Wang, Xinwang Zhang, Lijun Zhang
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引用次数: 0
摘要
重水研究堆是中国第一座反应堆。它最初采用金属铀作为燃料,铝合金作为包层。在多年前的换料过程中,几个燃料销掉在乏燃料池的底部。燃料销的数量和位置没有记录。在退役之前,重要的是要找到并收回燃料销。燃料销φ40 mm × 100 mm,燃料池17.8 m × 5.6 m。这就像大海捞针。更糟糕的是,由于水质差,即使有防水相机也不清楚找到燃料针。此外,池中还存放了辐射管、中子探测器和破损的控制棒。在对国内外放射源定位方法进行综述后,确定在这种情况下使用γ剂量率计和γ能谱仪。用MNCP程序计算不同宽度和厚度的盾构。优化设计为厚度为5cm,宽度为5cm,中间有孔的铅屏蔽。防水相机与伽马探测器绑在一起,最终找到14个燃料针并安全带回。
The Location of Spent Fuel Pins in Heavy Water Research Reactor in the Spent Fuel Pool
Heavy Water Research Reactor was the first reactor in China. It adopted metallic uranium as fuel and aluminum alloy as cladding in the beginning. During the refueling procedure many years ago, several fuel pins dropped at the bottom of the spent fuel pool. The amount and the location of the fuel pins were not recorded. Before decommissioning, it is important to locate and take back the fuel pins. The fuel pin is φ40 mm × 100 mm and the pool is 17.8 m × 5.6 m. It is like dredging for a needle in the sea. What’s worse, it is not clear to find the fuel pins even with a waterproof camera for the bad water quality. Besides, radiation tubes, neutron detectors, and broken control rod were also stored in the pool.After reviewing on the localization method of radioactive source at home and abroad, it is determined to use γ dose rate meter and γ spectrometer in this case. Shields in different width and thickness were calculated with MNCP code. The optimization was 5cm in thickness and 5 cm width lead shield with a hole in the center. The waterproof camera was tied with Gama detector and finally 14 fuel pins were located and taken back safely.
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