Assessing the Potential for Implementation of Distributed Ledger Technology in the Nuclear Power Plant Lifecycle

P. Pandit, Daniel Nevius, Vibhav Srivaths, M. Diaconeasa
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Abstract

The Nuclear Power Plant (NPP) project lifecycle consists of multiple organizations, private and public, that work together to carry out the licensing and regulation, commissioning, construction, supply chain management, decommissioning, and non-proliferation of nuclear power plants. Each stage of the lifecycle generates a considerable amount of documentation that needs to be archived and made available on request. In this paper, we examined the current frameworks employed by the stakeholders of nuclear power plant lifecycles for data generation, classification, archival, and exchange and we evaluated the use of distributed ledger technology for data management. We further demonstrated the implementation of distributed ledger technology to capturing and immutable recording nuclear supply chain structure, production, and failure data. Distributed Ledger Technology (DLT) promises to address the current bottlenecks in the lifecycle management of nuclear power plants with faster data exchange times, lower processing cost of documents, bridging the gap between perceived and actual risk, faster decisions, customizable transparency in job tasks being executed, improved cash flow, instant validation of job completion, reduction in logistical friction, and sped up supply chain decisions for clients. We gave a comprehensive review of distributed ledger technology, its properties and an open-source permissioned distributed ledger system called Hyperledger Fabric. Each sector of the nuclear power plant lifecycle was analyzed for data management bottlenecks and building on our discussion of employing distributed ledger technology we discussed the pathway in which Hyperledger Fabric can be employed to address the data management bottlenecks in each stage of the lifecycle including, licensing and regulation, commissioning, construction, supply chain management, decommissioning, and non-proliferation.
评估分布式账本技术在核电厂生命周期中的应用潜力
核电厂(NPP)项目生命周期由多个组织组成,包括私人和公共组织,这些组织共同开展核电站的许可和监管、调试、建设、供应链管理、退役和防扩散。生命周期的每个阶段都会生成相当数量的文档,这些文档需要存档并在需要时提供。在本文中,我们研究了核电厂生命周期利益相关者用于数据生成、分类、存档和交换的当前框架,并评估了分布式账本技术在数据管理中的使用。我们进一步展示了分布式账本技术的实现,以捕获和不可变记录核供应链结构、生产和故障数据。分布式账本技术(DLT)有望通过更快的数据交换时间、更低的文档处理成本、弥合感知和实际风险之间的差距、更快的决策、正在执行的工作任务的可定制透明度、改善的现金流、即时验证工作完成、减少后勤摩擦以及加快客户的供应链决策来解决当前核电厂生命周期管理中的瓶颈。我们全面回顾了分布式账本技术,它的属性和一个被称为Hyperledger Fabric的开源许可分布式账本系统。我们分析了核电站生命周期的每个部门的数据管理瓶颈,并在我们讨论采用分布式账本技术的基础上,讨论了利用超级账本结构解决生命周期每个阶段的数据管理瓶颈的途径,包括许可和监管、调试、建设、供应链管理、退役和防扩散。
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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