ITER materials irradiation within the D–T neutron environment at JET: post-irradiation radioactivity analysis following the DTE2 experimental campaign

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-09-12 DOI:10.1088/1741-4326/ad6f29
L.W. Packer, P. Batistoni, C. Bearcroft, S.C. Bradnam, E. Eardley, M. Fabbri, N. Fonnesu, M.R. Gilbert, Z. Ghani, K. Gorzkiewicz, C.L. Grove, R. Kierepko, E. Łaszyńska, I. Lengar, X. Litaudon, S. Loreti, J.W. Mietelski, M. Pillon, M.I. Savva, C.R. Shand, I.E. Stamatelatos, A.N. Turner, T. Vasilopoulou, R. Villari, A. Wójcik-Gargula, A. Žohar and JET Contributors
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Abstract

This work presents the results following the first irradiation of ITER materials samples in a tokamak D–T plasma environment operating at significant fusion power. The materials exposed to this nuclear environment at the Joint European Torus during the DTE2 experimental campaign that took place in 2021 include representative ITER samples from various components such as poloidal field coil jacket samples, toroidal field coil radial closure plate steels, EUROFER 97 steel, W and CuCrZr materials from the divertor, Inconel-718 and 316L stainless steel for blanket modules, as well as vacuum vessel forging samples. The experimental results discussed include high-resolution gamma spectrometry measurements and analysis conducted with the post-irradiated samples, of which there were 68 in total. These samples were exposed through different experimental campaigns, including deuterium, deuterium–tritium and tritium phases. Diagnostics that supported the analysis included 25 dosimetry foil-based neutron diagnostics and two ‘VERDI’ neutron spectrometry diagnostics. A further 12 samples for positron annihilation spectroscopy were also irradiated. The irradiation of all these samples took place in a long-term irradiation assembly located near the JET vacuum vessel. The post-irradiation analysis of the ITER material samples has yielded valuable insights into their material activation levels and radiation fields. Comparative assessments between experimental measurements and comprehensive neutronics simulations have demonstrated a significant level of agreement in this work, while also revealing some discrepancies in specific material instances. The data and interpretation from this work not only serve as a robust experimental foundation for enhancing the precision and predictability of neutronics simulation approaches for ITER and next-step devices but also present some opportunities for the refinement of simulation methodologies. In light of these findings, a series of recommendations have been proposed, aimed at improving confidence in nuclear predictions associated with materials that have been exposed to fusion nuclear environments and advancing understanding in this important domain.
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在 JET 的 D-T 中子环境中辐照热核实验堆材料:DTE2 实验活动之后的辐照后放射性分析
这项工作展示了首次在托卡马克 D-T 等离子体环境中对热核聚变实验堆材料样品进行辐照的结果。在2021年进行的DTE2实验活动期间,在欧洲联合环形器暴露于这种核环境的材料包括来自各种组件的具有代表性的ITER样品,如极环场线圈护套样品、环形场线圈径向闭合板钢、EUROFER 97钢、岔流器的W和CuCrZr材料、毯状模块的Inconel-718和316L不锈钢,以及真空容器锻造样品。讨论的实验结果包括对辐照后样品进行的高分辨率伽马能谱测量和分析,这些样品共有 68 个。这些样品经过了不同的实验活动,包括氘相、氘氚相和氚相。支持分析的诊断包括 25 个剂量测定箔式中子诊断和两个 "VERDI "中子能谱诊断。另外还辐照了 12 个用于正电子湮灭光谱分析的样品。所有这些样品的辐照都是在 JET 真空容器附近的长期辐照组件中进行的。对热核实验堆材料样品的辐照后分析为了解其材料活化水平和辐射场提供了宝贵的信息。实验测量和综合中子模拟之间的比较评估表明,这项工作在很大程度上是一致的,同时也揭示了特定材料实例中的一些差异。这项工作的数据和解释不仅为提高热核实验堆和下一步装置的中子学模拟方法的精确性和可预测性奠定了坚实的实验基础,还为改进模拟方法提供了一些机会。根据这些研究结果,提出了一系列建议,旨在提高与暴露在核聚变环境中的材料有关的核预测的可信度,并增进对这一重要领域的了解。
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CiteScore
7.20
自引率
4.30%
发文量
567
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