M. Firdaouss scite author profile

56 075020) is used to pave the way towards ITER divertor procurement and operation. It consists in implementing a divertor configuration and installing ITER-like actively cooled tungsten monoblocks in the Tore Supra tokamak, taking full benefit of its unique long-pulse capability. WEST is a user facility platform, open to all ITER partners. This paper describes the physics basis of WEST: the estimated heat flux on the divertor target, the planned heating schemes, the expected behaviour of the L-H threshold and of the pedestal and the potential W sources. A series of operating scenarios has been modelled, showing that ITER-relevant heat fluxes on the divertor can be achieved in WEST long pulse H-mode plasmas.

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The DEMO wall load challenge

Wenninger

Albanese

Ambrosino

et al. 2017

Nucl. Fusion

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M. Firdaouss

The WEST project: Testing ITER divertor high heat flux component technology in a steady state tokamak environment

WEST Physics Basis

The DEMO wall load challenge

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