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A preliminary design and structural analysis of the lifting tools for 40° sector sub-assembly and handling ITER components
Authors:Kyoungo Nam  Hyunki Park  Kihak Im  Dongjin Kim  Heejae Ahn  Jaehyuk Lee  Jaewhan Moon  Emma Watson  Robert Shaw
Affiliation:1. ITER Korea, Gwahangno 113, Yuseong-gu, Daejeon 305-333, Republic of Korea;2. SFA Inc., 166 Sinhang-ri, Dunpo-myeon, Asan-si, Chungcheongnam-do 336-873, Republic of Korea;3. ITER Organization, Route de Vinon sur Verdon, 13115 Saint Paul Lez Durance, France
Abstract:The purpose-built, ITER tokamak assembly tools, which are to be provided by Korea, should be designed to meet: the assembly plan, space reservations, safety standards, simple operations, efficient maintenance, and so on. It is very important that the ITER assembly tools are able to lift and transfer ITER components or their sub-assemblies to their assembled position safely. Furthermore, the lifting tools will lift and handle very heavy loads that can be more than 1200 tonnes sometimes. Therefore, the ITER lifting tools must be designed to endure these heavy load conditions with regard to their structural integrity. Also, these designs should be verified through an appropriate method. The preliminary design of the sector lifting tool and associated lifting attachments are introduced in this paper. The sector lifting tool was designed especially to lift and handle various ITER components by adjusting the lifting centre. The structural analysis results using ANSYS are described considering the heaviest load condition. The results of the analysis show that; all stresses applied on the lifting tool are lower than the allowable stress of the applied material.
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