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Assessment of the Performance of Different Cooling Configurations for the Launcher Mirrors of the ECRH System of the DTT Facility

Authors :
Andrea Allio
Alessandro Bruschi
Daniele Busi
Andrea Bussolan
Francesco Fanale
Pierluigi Fanelli
Saul Garavaglia
Francesco Giorgetti
Afra Romano
Alessandra Salvitti
Laura Savoldi
Allio, Andrea
Bruschi, Alessandro
Busi, Daniele
Bussolan, Andrea
Fanale, Francesco
Fanelli, Pierluigi
Garavaglia, Saul
Giorgetti, Francesco
Romano, Afra
Salvitti, Alessandra
Savoldi, Laura
Source :
IEEE transactions on plasma science (2022): 1–6. doi:10.1109/TPS.2022.3182532, info:cnr-pdr/source/autori:Allio A.; Bruschi A.; Busi D., Bussolan A.; Fanale F.; Fanelli P.; Garavaglia S., Giorgetti F.; Romano A.; Salvitti A.; Savoldi L./titolo:Assessment of the Performance of Different Cooling Configurations for the Launcher Mirrors of the ECRH System of the DTT Facility/doi:10.1109%2FTPS.2022.3182532/rivista:IEEE transactions on plasma science/anno:2022/pagina_da:1/pagina_a:6/intervallo_pagine:1–6/volume
Publication Year :
2022
Publisher :
Institute of Electrical and Electronics Engineers (IEEE), 2022.

Abstract

The launcher mirrors will allow the injection of microwave power from the gyrotrons in the plasma of the Divertor Tokamak Test facility, under construction in Italy. The active cooling of the elliptical M1 (curved and not-steerable) and M2 (flat and steerable) mirrors, both subject to a significant heat load, is investigated in this article. Several cooling solutions are analyzed: a spiral cooling for M1, both in a massive and in a lightened configuration, and also a radial-azimuthal cooling for M2, both in a massive and in a lightened configuration. Figures of merit are computed for the different configurations.

Subjects

Subjects :
Electromagnetic heating
Nuclear and High Energy Physics
Mirrors
Cooling
Heating systems
Spirals
Plasma temperature
Plasmas
microwave technology
mirrors
simulations
temperature control
Astrophysics::Instrumentation and Methods for Astrophysics
Cooling, microwave technology, mirrors, simulations, temperature control
Condensed Matter Physics
Physics::Plasma Physics

Details

ISSN :
19399375 and 00933813
Volume :
50
Database :
OpenAIRE
Journal :
IEEE Transactions on Plasma Science
Accession number :
edsair.doi.dedup.....e71247b98d9ce5bb2b7c119d9a6abe2f
Full Text :
https://doi.org/10.1109/tps.2022.3182532
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