Wireless Sensor Platform for Dry Spent Fuel Cask Monitoring

2020 IEEE Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC) Pub Date : 2020-10-31 DOI:10.1109/NSS/MIC42677.2020.9508083

D. McAdams, Erik B. Johnson, M. Squillante, Andrew Harrington, R. Blakeley, E. Weststrate, Jane He, S. Bader, J. Christian

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Abstract

Nuclear power plants regularly generate spent fuel that must be stored on the decade timescale. Often this is done in dry nuclear waste storage casks. Long-term monitoring would provide data that improves the safe maintenance of stored spent fuel. This requires measuring the conditions within waste casks using a self-contained sensor system. Radiation Monitoring Devices, Inc. is developing a system that detects damaged fuel rod cladding by sensing and quantifying the amount of 85Kr present using a diamond sensor. A potential means for power and data transfer through the cask wall uses an ultrasonic transmission method. The work described here advances the prototype toward inclusion in a specific model fuel cask, the NUHOMS® 32 PTH1 manufactured by Orano (formally, Areva Transnuclear, Inc.). The results include extensive radiological modeling studies, an estimation of the leaked activity due to 85Kr after a cladding breach (~ 1013Bq) derived from a literature review, a design for a prototype, and the characterization of a diamond detector at room temperature and in the presence of 85Kr.

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干乏燃料桶监测无线传感器平台

核电站定期产生的乏燃料必须以十年为周期进行储存。这通常是在干燥的核废料储存桶中完成的。长期监测将提供数据，以改进储存的乏燃料的安全维护。这需要使用一个独立的传感器系统来测量废物桶内的条件。辐射监测设备公司正在开发一种系统，该系统通过使用钻石传感器感应和量化85氪的含量来检测受损的燃料棒包层。通过桶壁进行功率和数据传输的一种潜在手段是使用超声波传输方法。这里所描述的工作将原型推进到包含在特定模型燃料桶中，由Orano(正式名称为Areva Transnuclear, Inc.)制造的NUHOMS®32 PTH1。结果包括广泛的放射学建模研究，根据文献综述对包层破裂(~ 1013Bq)后85Kr泄漏活度的估计，原型设计，以及在室温和85Kr存在下的金刚石探测器的表征。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 IEEE Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC)

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