Design Status of the Structural Components of the Helical Fusion Reactor FFHR-d1

Hitoshi TAMURA; Teruya TANAKA; Takuya GOTO; Nagato YANAGI; Junichi MIYAZAWA; Suguru MASUZAKI; Ryuichi SAKAMOTO; Akio SAGARA; Satoshi ITO; Hidetoshi HASHIZUME; the FFHR Design Group

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Design Status of the Structural Components of the Helical Fusion Reactor FFHR-d1

机译：螺旋融合反应器的结构部件的设计状态FFHR-D1

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FFHR-d1 is a conceptual design of the Large Helical Device-type fusion reactor. Several design optimizations for FFHR-d1 have been conducted under a multipath strategy. The structural design began from a radial build design of the components using a system code analysis and considering a shielding/breeding blanket design. The support structure must be sufficiently rigid to hold a constant geometric position of the radial build components. Additionally, large apertures are required for the maintenance work of in-vessel components. The shape of the support structure was carefully chosen and the analytically determined stress level was within the permissible limit. Thus, the basic design of the structural components of FFHR-d1 was established. To accelerate the design activity and achieve a consistent helical reactor system, the high-temperature superconducting joint-winding, liquid metal divertor, a supplemental helical coil addition, a novel divertor structure, and other challenging options are investigated alongside the basic design. This paper describes the structural design status of FFHR-d1 by focusing on the latest radial build design, construction scheme, and effectiveness of the novel divertor structure.

机译：FFHR-D1是大型螺旋装置型融合反应堆的概念设计。在多径策略下进行了几种FFHR-D1设计优化。结构设计从部件的径向构建设计开始使用系统代码分析，并考虑屏蔽/繁殖毯设计。支撑结构必须足够刚性以保持径向构建部件的恒定几何位置。另外，容器组件的维护工作需要大孔。仔细选择支撑结构的形状，并且分析确定的应力水平在允许的极限范围内。因此，建立了FFHR-D1的结构组分的基本设计。为了加速设计活动并实现一致的螺旋反应器系统，研究了高温超导绕组，液态金属偏移器，补充螺旋线圈加法，新的偏移体结构和其他具有挑战性的选择。本文介绍了FFHR-D1的结构设计状态，通过专注于新型径向构建设计，施工方案和新型偏移体结构的有效性。

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《Plasma and Fusion Research》 |2016年第1期|共1页
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Hitoshi TAMURA; Teruya TANAKA; Takuya GOTO; Nagato YANAGI; Junichi MIYAZAWA; Suguru MASUZAKI; Ryuichi SAKAMOTO; Akio SAGARA; Satoshi ITO; Hidetoshi HASHIZUME; the FFHR Design Group;
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1. Design modification of structural components for the helical fusion reactor FFHR-d1 with challenging options [J] . Tamura Hitoshi, Yanagi Nagato, Goto Takuya, Fusion Engineering and Design . 2017,第nova期

机译：螺旋聚变反应堆FFHR-d1的结构部件的设计修改具有挑战性的选择
2. Progress in the Conceptual Design of the Helical Fusion Reactor FFHR-d1 [J] . Yanagi Nagato, Goto Takuya, Miyazawa Junichi, Journal of Fusion Energy . 2019,第1期

机译：螺旋聚变反应堆FFHR-d1的概念设计进展
3. Development of a real-time simulation tool towards self-consistent scenario of plasma start-up and sustainment on helical fusion reactor FFHR-d1 [J] . T. Goto, J. Miyazawa, R. Sakamoto, Nuclear fusion . 2017,第6期

机译：在螺旋聚变反应堆FFHR-d1上针对等离子体启动和维持的自洽情况开发实时仿真工具
4. DEVELOPING STRUCTURAL DESIGN CRITERIA FOR FUSION REACTOR IN-VESSEL COMPONENTS [C] . M Kalsey, M Porton International conference on nuclear engineering . 2014

机译：熔体反应器容器组件的结构设计标准的发展
5. Modeling and mechanisms of macroscopic erosion of melt layers of plasma facing components in fusion reactors. [D] . Shi, Yimeng. 2010

机译：聚变反应堆中面向等离子体的部件的熔体层宏观腐蚀的建模和机理。
6. Design of the DEMO Fusion Reactor Following ITER [O] . Paul R. Garabedian, Geoffrey B. McFadden 2009

机译：ITER之后的DEMO聚变反应堆设计
7. Design Status of the Structural Components of the Helical Fusion Reactor FFHR-d1 [O] . Hitoshi TAMURA, Teruya TANAKA, Takuya GOTO, 2016

机译：螺旋融合反应器的结构部件的设计状态FFHR-D1
8. Properties of V-4Cr-4Ti for application as fusion reactor structural components [R] . Chung, H. M. , Loomis, B. A. , Smith, D. L. 1994

机译：V-4Cr-4Ti的性质，用作聚变反应堆结构部件

Design Status of the Structural Components of the Helical Fusion Reactor FFHR-d1

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