Enhanced radioactive waste drum monitoring: A sensorized LoRa-based network for identification and integrity assessment

•Wireless sensor network for the monitoring of radioactive waste drum integrity.•Passive gamma and neutron counting for long-term radioactive waste assessment.•Flexible technology, adaptable framework for comprehensive waste package evaluation.•IoT and WSN based monitoring for waste drums using LoRa...

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Veröffentlicht in:Nuclear engineering and design 2024-08, Vol.424, p.113231, Article 113231
Hauptverfasser: Chierici, Andrea, Cancemi, Salvatore Angelo, Niederleithinger, Ernst, Lo Frano, Rosa
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Sprache:eng
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Zusammenfassung:•Wireless sensor network for the monitoring of radioactive waste drum integrity.•Passive gamma and neutron counting for long-term radioactive waste assessment.•Flexible technology, adaptable framework for comprehensive waste package evaluation.•IoT and WSN based monitoring for waste drums using LoRa technology. A reliable monitoring and oversight system is essential to guarantee the safe operation and eventual closure of radioactive waste disposal facilities. With recent technological advancements, there is now the capability to deploy distributed wireless sensor networks that are cost-effective and low in power consumption. Such networks are versatile, finding applications in several civil, environmental, and industrial sectors. This work presents a novel system and method for identifying and continuously monitoring the integrity of stored radioactive waste packages. The proposed approach, developed by the University of Pisa in the context of the H2020 European Project PREDIS, employs a network of wireless node devices, provided with solid-state micro-power radiation detectors tasked with the measurement of gamma-rays and thermal neutrons coming from within cemented waste drums. Collected data are automatically transmitted across the storage site via Long Range radio technology and forwarded to cloud-based or offline platforms, allowing for further visualization, data processing, and safe storage. The system highlights the feasibility of autonomously and passively gathering data from radioactive waste drums over extended distances (more than 250 m in non-line-of-sight conditions), decreasing the reliance on portable or automated scanning mechanisms. In line with its capability for autonomous, long-range data collection, the system satisfies the requirement for structural integrity, containment, and confinement of packaging throughout both interim and long-term disposal of radioactive wastes, thereby playing a key role in reinforcing the safe management of radioactive waste.
ISSN:0029-5493
1872-759X
DOI:10.1016/j.nucengdes.2024.113231