Problem Decomposition and Information Minimization for the Global, Concurrent, On-line Validation of Neutron Noise Signals and Neutron Detector Operation

Tatiana Tambouratzis
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Abstract

This piece of research introduces a purely data-driven, directly reconfigurable, divide-and-conquer on-line monitoring (OLM) methodology for automatically selecting the minimum number of neutron detectors (NDs) – and corresponding neutron noise signals (NSs) – which are currently necessary, as well as sufficient, for inspecting the entire nuclear reactor (NR) in-core area. The proposed implementation builds upon the 3-tuple configuration, according to which three sufficiently pairwise-correlated NSs are capable of on-line (I) verifying each NS of the 3-tuple and (II) endorsing correct functioning of each corresponding ND, implemented herein via straightforward pairwise comparisons of fixed-length sliding time-windows (STWs) between the three NSs of the 3-tuple. A pressurized water NR (PWR) model – developed for H2020 CORTEX – is used for deriving the optimal ND/NS configuration, where (i) the evident partitioning of the 36 NDs/NSs into six clusters of six NDs/NSs each, and (ii) the high cross-correlations (CCs) within every 3-tuple of NSs, endorse the use of a constant pair comprising the two most highly CC-ed NSs per cluster as the first two members of the 3-tuple, with the third member being each remaining NS of the cluster, in turn, thereby computationally streamlining OLM without compromising the identification of either deviating NSs or malfunctioning NDs. Tests on the in-core dataset of the PWR model demonstrate the potential of the proposed methodology in terms of suitability for, efficiency at, as well as robustness in ND/NS selection, further establishing the “directly reconfigurable” property of the proposed approach at every point in time while using one-third only of the original NDs/NSs.
中子噪声信号和中子探测器运行的全局、并发、在线验证问题分解和信息最小化
本研究介绍了一种纯数据驱动的、直接可重构的、分而治之的在线监测(OLM)方法,用于自动选择最小数量的中子探测器(nd)和相应的中子噪声信号(NSs),这是目前检查整个核反应堆(NR)核心区域所必需的,也是足够的。所提出的实现建立在3元组配置的基础上,根据该配置,三个充分两两相关的神经网络能够在线(I)验证3元组中的每个神经网络和(II)认可每个相应神经网络的正确功能,本文通过对3元组中的三个神经网络之间的定长滑动时间窗口(STWs)的直接两两比较来实现。加压水NR(压水式反应堆)模型——发达H2020皮层——用于推导最优ND / NS配置,(i)明显分区的36 NDs / NSs六组分为六NDs NSs,和(2)的高互关联(CCs)在每个包含NSs,支持使用一个常数对包括两个最高度CC-ed NSs每个集群的前两个成员包含每个剩余NS的第三个成员的集群,反过来,从而在计算上简化OLM,而不影响对偏离的NSs或故障的NDs的识别。在压水堆模型核心数据集上的测试表明,在ND/NS选择的适用性、效率和鲁棒性方面,所提出的方法具有潜力,进一步确立了所提出方法在每个时间点的“直接可重构”特性,同时只使用三分之一的原始ND/NS。
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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