Calculation and Experimental Studies for the Spent Nuclear Fuel Shipping Cask Sealing Assembly

Q4 Energy

Izvestiya Wysshikh Uchebnykh Zawedeniy, Yadernaya Energetika Pub Date : 2023-03-01 DOI:10.26583/npe.2023.2.07

Artem Zuferovich Gaiazov, Oleg Z. Gaiazov, Viacheslav Yu. Kozlov, Sergey V. Pavlov, Aleksandr A. Samsonov

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引用次数: 0

Abstract

One of the safety requirements regarding the shipping cask for spent nuclear fuel is that its leak-tightness should be maintained by preserving the cask body structural integrity and the sealing system tightness under normal and accident transportation conditions. The cask under design has a cylindrical process penetration (port) in its bottomб which is sealed using a plug with a radial seal composed of two rubber O-rings. The cask sealing assembly design was justified by the ANSYS LS-DYNA code calculation results. In particular, the strains of the cask components were calculated when dropped from a height of 1 m with the sealing assembly hitting a vertical bar. The cask was concluded to be leak-tight or leaky based on the strain nature and amount. To verify the adequacy of the results, computer-aided and realistic simulations were undertaken with a 1/2.5 scale mockup cask dropped on a bar from a height of 1 m. The computational and experimental results show a good agreement in terms of the impact response accelerations (overloads) for the mockup cask and bar collision and in terms of the plastic strains for the key components of the mockup bottom port sealing assembly. This proves the adequacy of the numerical cask model that has been developed and the efficiency of the LS-DYNA simulations. The inner rubber O ring compression is reduced by the plastic strains in the cask’s bottom port area, leading to a loose inner radial seal, as shown by the calculations. But the outer seal remains leak-tight, ensur - ing so the mockup cask tightness. The physical test results have also confirmed that the mockup cask remains leak-tight.

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乏燃料输送桶密封装置的计算与实验研究

乏燃料运输桶的安全要求之一是在正常运输和事故运输条件下，应保持桶体结构的完整性和密封系统的密封性，以保持乏燃料运输桶的密封性。所设计的桶底部有一个圆柱形的工艺孔(端口)，用一个由两个橡胶o形圈组成的径向密封塞密封。通过ANSYS LS-DYNA程序的计算结果，验证了桶密封总成设计的合理性。特别是，当密封组件撞击垂直杆从1米的高度落下时，计算了桶组件的应变。根据应变性质和应变量的大小，得出桶体为密漏型或漏泄型。为了验证结果的充分性，进行了计算机辅助和真实的模拟，将1/2.5比例的模拟木桶从1米的高度落在一根杆上。计算结果和实验结果表明，模拟桶和杆碰撞的冲击响应加速度(过载)和模拟底口密封组件关键部件的塑性应变具有较好的一致性。这证明了所建立的数值桶模型的充分性和LS-DYNA模拟的有效性。计算结果表明，由于桶底端口区域的塑性应变减小了内O形橡胶圈的压缩，导致内径向密封松散。但外部密封仍然是密闭性的，确保了模型桶的密闭性。物理测试结果也证实了模型桶仍然是密封的。

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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来源期刊

Izvestiya Wysshikh Uchebnykh Zawedeniy, Yadernaya Energetika Energy-Nuclear Energy and Engineering

CiteScore

0.40

自引率

0.00%

发文量

期刊介绍： The scientific journal Izvestiya Wysshikh Uchebnykh Zawedeniy, Yadernaya Energetika is included in the Scopus database. Publisher country is RU. The main subject areas of published articles are Nuclear Energy and Engineering, Физика, Приборостроение, метрология и информационно-измерительные приборы и системы, Информатика, вычислительная техника и управление, Энергетика. Before sending a scientific article, we recommend you to read the section For authors. This will allow you to prepare an article better for publication, to make it more interesting for the readers and useful for the scientific community. By following these steps, you will greatly increase the likelihood of your scientific article publishing in journals included in international citation systems (e.g., Scopus). Then you may choose a different journal, select the journal included to list of SAC Russia journal list, or send your scientific work for review and publication.