He-cooled Divertor for DEMO Status of Design and HHF Tests

2007 IEEE 22nd Symposium on Fusion Engineering Pub Date : 2007-06-17 DOI:10.1109/FUSION.2007.4337885

P. Norajitra, A. Gervash, R. Giniyatulin, T. Ihli, W. Krauss, R. Krüssmann, V. Kuznetsov, A. Makhankov, I. Mazul, I. Ovchinnikov, J. Reiser, R. Ruprecht, V. Widak

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引用次数: 1

Abstract

A modular He-cooled divertor concept for DEMO has been developed at Forschungszentrum Karlsruhe in cooperation with the Efremov Institute. The work covers the areas of design, analyses, fabrication technology, and experimental design verification. The overall design goal is to reach a heat flux of 10 MW/m2 at least. The selected reference design HEMJ (He-cooled modular divertor with multiple-jet cooling) employs small tiles made of tungsten, which are brazed to a finger-like thimble structure, which is made of tungsten alloy. The finger module is cooled by multiple jets of helium (10 MPa, 634degC) directly impinging onto the inner heated surface of the thimble. For the experimental verification of the design, a combined facility at Efremov, comprising a helium loop and an electron beam facility, was used. Technological studies focussed on the fabrication of tungsten divertor mock-ups, combined with an Eurofer steel structure. The first series of 1-finger mock-ups manufactured in this way were successfully HHF-tested in 2006. The test results confirmed the feasibility and the required performance of the design. The 2007 test series use mock-ups which have been improved in terms of thermal stress reduction and increasing manufacturing quality of tungsten parts (tile and thimble) and show a tendency of lifetime enhancement, i.e. surviving larger thermal cycles.

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用于演示设计和HHF试验的he冷却转向器

卡尔斯鲁厄Forschungszentrum Karlsruhe与Efremov研究所合作开发了用于DEMO的模块化he冷却导流器概念。这项工作涵盖了设计、分析、制造技术和实验设计验证等领域。总体设计目标是达到至少10兆瓦/平方米的热流密度。选定的参考设计HEMJ (he - cooling modular divertor with multi -jet cooling)采用钨制成的小瓦，将其钎焊到由钨合金制成的手指状顶针结构上。手指模块是由多个氦射流(10兆帕，634摄氏度)直接冲击到顶针的内部加热表面冷却的。为了对设计进行实验验证，使用了Efremov的一个组合设备，包括一个氦环和一个电子束设备。技术研究的重点是钨制导流器模型的制造，并结合欧洲钢结构。用这种方法制造的第一批单指模型在2006年成功通过了hhf测试。试验结果证实了设计的可行性和所要求的性能。2007年的测试系列使用了在减少热应力和提高钨零件(瓦和顶针)制造质量方面得到改进的实物，并显示出寿命延长的趋势，即在更大的热循环中存活下来。

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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2007 IEEE 22nd Symposium on Fusion Engineering

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