Sensors (May 2023)

Neutronics Simulations for DEMO Diagnostics

  • Raul Luís,
  • Yohanes Nietiadi,
  • Antonio Quercia,
  • Alberto Vale,
  • Jorge Belo,
  • António Silva,
  • Bruno Gonçalves,
  • Artur Malaquias,
  • Andrei Gusarov,
  • Federico Caruggi,
  • Enrico Perelli Cippo,
  • Maryna Chernyshova,
  • Barbara Bienkowska,
  • Wolfgang Biel

DOI
https://doi.org/10.3390/s23115104
Journal volume & issue
Vol. 23, no. 11
p. 5104

Abstract

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One of the main challenges in the development of a plasma diagnostic and control system for DEMO is the need to cope with unprecedented radiation levels in a tokamak during long operation periods. A list of diagnostics required for plasma control has been developed during the pre-conceptual design phase. Different approaches are proposed for the integration of these diagnostics in DEMO: in equatorial and upper ports, in the divertor cassette, on the inner and outer surfaces of the vacuum vessel and in diagnostic slim cassettes, a modular approach developed for diagnostics requiring access to the plasma from several poloidal positions. According to each integration approach, diagnostics will be exposed to different radiation levels, with a considerable impact on their design. This paper provides a broad overview of the radiation environment that diagnostics in DEMO are expected to face. Using the water-cooled lithium lead blanket configuration as a reference, neutronics simulations were performed for pre-conceptual designs of in-vessel, ex-vessel and equatorial port diagnostics representative of each integration approach. Flux and nuclear load calculations are provided for several sub-systems, along with estimations of radiation streaming to the ex-vessel for alternative design configurations. The results can be used as a reference by diagnostic designers.

Keywords