Litcius/Paper detail

Preliminary analysis of alternative divertors for DEMO

F. Militello, L. Aho-Mantila, R. Ambrosino, T. Body, H. Bufferand, G. Calabrò, G. Ciraolo, D. Coster, Giuseppe Di Gironimo, Pierluigi Fanelli, N. Fedorczak, A. Herrmann, P. Innocente, R. Kembleton, J. Lilburne, T. Lunt, Domenico Marzullo, S. Merriman, D. Moulton, A. H. Nielsen, John Omotani, G. Ramogida, H. Reimerdes, M. Reinhart, Paolo Ricci, Fabio Riva, A. Stegmeir, F. Subba, W. Suttrop, P. Tamain, M. Teschke, A. S. Thrysøe, W. Treutterer, S. Varoutis, M. Wensing, A. Wilde, M. Wischmeier, L. Xiang

2021Nuclear Materials and Energy39 citationsDOIOpen Access PDF

Abstract

A physics and engineering analysis of alternative divertor configurations is carried out by examining benefits and problems by comparing the baseline single null solution with a Snowflake, an X- and a Super-X divertor. It is observed that alternative configurations can provide margin and resilience against large power fluctuations, but their engineering has intrinsic difficulties, especially in the balance between structural solidity and accessibility of the components and when the specific poloidal field coil positioning poses further constraints. A hybrid between the X- and Super-X divertor is proposed as a possible solution to the integration challenge.

Topics & Concepts

DivertorSnowflakeNuclear engineeringMargin (machine learning)Null (SQL)Power (physics)Resilience (materials science)Field (mathematics)Computer sciencePhysicsStatistical physicsNuclear physicsMathematicsEngineeringTokamakPlasmaThermodynamicsData miningMeteorologyPure mathematicsSnowMachine learningMagnetic confinement fusion researchFusion materials and technologiesSuperconducting Materials and Applications