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Article Dans Une Revue Inverse Problems in Science and Engineering Année : 2013

Inverse heat conduction problem using thermocouple deconvolution: application to the heat flux estimation in a tokamak

Résumé

Internal components of magnetic confinement fusion machines are subjected to significant heat fluxes. A large part of this power is directed towards plasma facing components. Even if these components are designed to receive about, surface temperature and heat flux measurements are important issues to guarantee safe plasma operations. In JET tokamak, few embedded thermocouples (TC) located 1 cm below the tile surface are used to measure the bulk temperatures of the Carbon Fiber tiles (coated with about 20m of tungsten with the ITER-like wall). We propose here to use an inverse thermal calculation based on Thermal Quadrupole method to locally deduce the deposited heat flux. The calculation requires the location of the peak and the normalized 1D-shape of the heat flux deposited on the target.

Dates et versions

hal-01459440 , version 1 (07-02-2017)

Identifiants

Citer

Jean-Laurent Gardarein, Jonathan Gaspar, Yann Corre, Stéphane Devaux, Fabrice Rigollet, et al.. Inverse heat conduction problem using thermocouple deconvolution: application to the heat flux estimation in a tokamak. Inverse Problems in Science and Engineering, 2013, 21 (5), pp.854-864. ⟨10.1080/17415977.2013.780169⟩. ⟨hal-01459440⟩
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