JET, the world's largest operating tokamak with unique Be/W wall and tritium handling capability, completed a Deuterium-Tritium (D-T) campaign in 2021 (Maggi et al 29th Fusion Energy Conf.) following a decade of preparatory experiments, dedicated enhancements, technical rehearsals and training (Horton et al 2016 Fusion Eng. Des.109-111 925). Operation with tritium raises significant technical, safety and scientific challenges not encountered in standard protium or deuterium operation. This contribution describes the tritium operational requirements, pulses and technical preparations, new operating procedures, lessons learned and details on the achieved operational availability and performance. The preparation and execution of the recent JET tritium experiments benefitted from the previous experience in 1991 (Preliminary Tritium Experiment), 1997 (DTE1 campaign) and 2003 (Trace Tritium Campaigns) and consisted of the following five phases: technical rehearsals and scenario preparation, tritium commissioning, 100% tritium campaign, D-T campaign (DTE2), tritium clean-up. Following the clean-up JET resumed normal operation and is currently undertaking a further D-T campaign (DTE3).
Journal article
JET machine operations in T&D-T
Nuclear Fusion, v 64(10), 106014
01 Oct 2024
Featured in Collection : UN Sustainable Development Goals @ Drexel
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- Title
- JET machine operations in T&D-T
- Creators
- D.B. KingE. AbdelrahmanA. Abdul HamidN. AbidK. AbrahamO. AdabonyanC. AdlamM. AfzalM. AkhtarV. AldredS. AldworthS. AleiferisM. AliR. AlieR. AllanH. AllenE. AlliM. AllinsonP. AlmondJ. AngusK. AntcliffeI. AntoniouL. AppelC. AppelbeeC. AramundeN. ArcherS. AriaH. ArkuszynskiM. ArshadG. ArtaserseA. AshC. AsheT. AueD. AuldB. AustinY. AustinC. AyresR.B. MoralesS. BakerS. BakesI. BalboaC. BalshawN. BalshawJ. BanksJ. BannerA. BarnardM. BarnardM. BaruzzoC. BasagiannisS. Bathe HariyanandanP. BatistoniR. BaughanP. BeaumontD. BeckettA. BegolliM. BeldishevskiK. BellE. BelonohyJ. BentleyJ. BernardoM. BerryJ. BhattS. BickertonJ. BieleckiW. BirdD. BlackettK. BlackmanS. BlakeP. BlatchfordA. BleasdaleA. BobocJ. BoothP. BoultingM. BowdenC. BoydK. BoydR. BraceyD. BrennanA. BrettM. BrightM. BrixI. BrooksB. BrownP. BrownM. BrownP. BrummittB. ViolaA. BuckinghamM. BuckleyJ. BumpassM. BurfordA. BurgessJ. Burton-SweetenA. BusseD. ButcherP. CahillP. CampI. CampbellR. CanavanJ. Cane
- Publication Details
- Nuclear Fusion, v 64(10), 106014
- Publisher
- Institute of Physics
- Number of pages
- 10
- Grant note
- BEISEuratom Research and Training ProgrammeEUROfusion Grant: 101052200
JET, which was previously a European facility, is now a UK facility collectively used by all European fusion laboratories under the EUROfusion consortium. It is operated by the United Kingdom Atomic Energy Authority, supported by BEIS and its European partners. This work, which has been carried out within the framework of the Contract for the Operation of the JET Facilities up to 31 October 2021, has been funded by the Euratom Research and Training Programme. Since 31 October 2021, UKAEA has continued to work with the EUROfusion Consortium as an Associated Partner of Max-Plank-Gesellschaft zur Forderung der Wissenschaft e.V represented by Max-Plank-Institut fur Plasmaphysik ('IPP') pursuant to Article 9.1 of the EUROfusion Grant Agreement for Project No 101052200. The views and opinions expressed herein do not necessarily reflect those of the European Commission
- Resource Type
- Journal article
- Language
- English
- Academic Unit
- Chemistry
- Web of Science ID
- WOS:001350241700001
- Scopus ID
- 2-s2.0-85202818534
- Other Identifier
- 991022041928504721
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- Collaboration types
- Domestic collaboration
- International collaboration
- Web of Science research areas
- Physics, Fluids & Plasmas