污染控制门的概念演示和原理验证设计

IF 0.5 Q4 NUCLEAR SCIENCE & TECHNOLOGY
Yan Wang, J. Oellerich, C. Baars, M. Mittwollen
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引用次数: 0

摘要

在未来的核聚变反应堆电厂(称为示范电厂(DEMO))的维护期间,需要远程处理的桶在反应堆和活动维护设施之间的运输过程中限制和处理DEMO容器内组件。为了限制活性粉尘的扩散,设计了一个污染控制门(CCD),放置在可分离容器(例如真空容器和木桶)之间的界面上,以抑制它们之间界面上污染物的释放。从技术上讲,远程操作的ccd是一种双盖门系统,由两个可分离的门(桶门和端口门)和三种不同的锁定机制组成:(i)桶门和桶之间,(ii)桶门和端口门之间,(iii)端口门和端口之间。根据不同的标准选择和评估锁定机构,并利用Abaqus拓扑优化模块对CCD的结构进行优化。由于CCD的弹性特性,在提升过程中会产生挠度,从而可能导致CCD的故障。为了研究CCD中高危部件在偏转和错位情况下的性能,研制了一套试验装置。可以故意沿着三个轴和三个角度诱导不对准,以测试单个组件和项目。目的是确定在不对准的情况下可能的操作范围。预计所提出的CCD设计应能够在±3mm平移不对准和±1°旋转不对准的情况下正常工作。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Concept of Contamination Control Door for DEMO and Proof of Principle Design
During the maintenance period of a future fusion reactor power plant, called DEMOnstration Power Plant (DEMO), remotely handled casks are required to confine and handle DEMO in-vessel components during their transportation between the reactor and the active maintenance facility. In order to limit the dispersion of activated dust, a Contamination Control Door (CCD) is designed to be placed at an interface between separable containments (e.g., vacuum vessels and casks) to inhibit the release of contamination at the interface between them. The remotely operated CCD—technically, a double lidded door system—consists of two separable doors (the cask door and port door) and three different locking mechanisms: (i) between the cask door and cask, (ii) between the cask door and port door and (iii) between the port door and port. The locking mechanisms are selected and assessed according to different criteria, and the structure of the CCD is optimized using an Abaqus Topology Optimization Module. Due to the elastic properties of the CCD, deflections will occur during the lifting procedure, which may lead to malfunctions of the CCD. A test rig is developed to investigate the performance of high-risk components in the CCD in the case of deflections and also malpositioning. Misalignment can be induced along three axes and three angles intentionally to test the single components and items. The aim is to identify a possible range of operating in the case of misalignments. It is expected that the proposed CCD design should be able to operate appropriately in the case of ±3 mm translational misalignments and ±1° rotational misalignments.
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来源期刊
CiteScore
1.30
自引率
0.00%
发文量
56
期刊介绍: The Journal of Nuclear Engineering and Radiation Science is ASME’s latest title within the energy sector. The publication is for specialists in the nuclear/power engineering areas of industry, academia, and government.
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