Actively cooled high-intensity heat shield (form-locked) design analysis

Mukherjee, S.; Dänner, W.; Ibbott, C.; Schweizer, S.; Simon-Weidner, J.; Streibl, B.; Uhlemann, R.

doi:10.1016/S0920-3796(03)00152-2

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Actively cooled high-intensity heat shield (form-locked) design analysis

Mukherjee, S., Dänner, W., Ibbott, C., Schweizer, S., Simon-Weidner, J., Streibl, B., et al. (2003). Actively cooled high-intensity heat shield (form-locked) design analysis. Fusion Engineering and Design, 66-68, 283-288. doi:10.1016/S0920-3796(03)00152-2.

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Datensatz-Permalink: https://hdl.handle.net/11858/00-001M-0000-0027-31B1-6 Versions-Permalink: https://hdl.handle.net/11858/00-001M-0000-0027-31B2-4

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Urheber:
Mukherjee, S.¹, Autor
Dänner, W.¹, Autor
Ibbott, C.², Autor
Schweizer, S.³, Autor
Simon-Weidner, J.¹, Autor
Streibl, B.³, Autor
Uhlemann, R.², Autor

Affiliations:
1External Organizations, ou_persistent22
2EFDA CSU Garching, Boltzmannstrasse 2, D-85748, Garching, Germany; ITER JWS Garching, Boltzmannstrasse 2, D-85748, Garching, Germany; Forschungszentrum Jülich, EURATOM Association, D-52425, Jülich, German, ou_persistent22
3Experimental Plasma Physics 1 (E1), Max Planck Institute for Plasma Physics, Max Planck Society, ou_1856295

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Schlagwörter: 22nd Symposium on Fusion Technology (SOFT 2002), Helsinki, 2002-09-09 to 2002-09-13

Zusammenfassung: A feasibility study is performed with 2D-mathematical models for heat shield designs using carbon fibre composites and tungsten monoblocks, which are form-locked to the coolant tube instead of metallurgically bonded. The geometrical boundary conditions and the overall shape correspond to the design for the ITER divertor vertical target. Steady state thermo-mechanical analyses have been carried out for a limited number of cases to investigate the effects of the particular features of the proposed connection. The results demonstrate the principal feasibility of this approach and open prospects for further improvements.