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Article Dans Une Revue Fusion Engineering and Design Année : 2019

The very high spatial resolution infrared thermography on ITER-like tungsten monoblocks in WEST Tokamak

Résumé

A new Infrared diagnostic has been developed by CEA-IRFM and installed in the WEST tokamak to measure surface temperature of the actively cooled W-monoblocks components as foreseen for the ITER Divertor, with a very high spatial resolution of 100µm. The goals are to investigate the effects of the shaping of these components on the heat load deposition pattern, the evolution of pre-damaged components specifically introduced in WEST, the behavior of the leading edges regarding the assembling tolerances between adjacent monoblocks, and finally to contribute to the specification assessment of the ITER divertor units. In WEST, each Plasma Facing Unit is composed of 35 W-monoblocks of individual surface of 28x12mm. To analyze heat load pattern and phenomena on such tiny surfaces, the leading edges and in the narrow gaps between monoblocks (400-500µm), a 100µm spatial resolution is required. Then, a Very High spatial Resolution (VHR) infrared diagnostic has been specially developed at CEA-IRFM. The VHR operates at 1.7µm wavelength to take advantage of the dynamic of the signal for the temperature range (400 to 3600°C). The VHR infrared diagnostic is now operational above the divertor sector made of actively cooled W-monoblocks and graphite inertial components with W coating. This paper gives a description of the diagnostic.
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Dates et versions

hal-02093804 , version 1 (29-01-2020)

Identifiants

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M. Houry, C. Pocheau, M-H Aumeunier, C. Balorin, K. Blanckaert, et al.. The very high spatial resolution infrared thermography on ITER-like tungsten monoblocks in WEST Tokamak. Fusion Engineering and Design, 2019, Fusion Engineering and Design, 146 (part A), pp.1104-1107. ⟨10.1016/j.fusengdes.2019.02.017⟩. ⟨hal-02093804⟩
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