ITER NBI operational window and power availability constraints due to shine-through losses
This paper explores the operational boundaries and power availability of the neutral beam injection (NBI) system in ITER, with a specific focus on shine-through (ST) loss prevention. ST, a phenomenon where part of the injected neutral beam remains un-ionized in the plasma and directly impacts the fi...
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| Format: | Article |
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IOP Publishing
2025-01-01
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| Series: | Nuclear Fusion |
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| Online Access: | https://doi.org/10.1088/1741-4326/adaf41 |
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| author | P. Vincenzi M. Schneider P. Veltri J.F. Artaud A. Loarte S. Nicolici C. Poggi A.R. Polevoi A. Snicker |
| author_facet | P. Vincenzi M. Schneider P. Veltri J.F. Artaud A. Loarte S. Nicolici C. Poggi A.R. Polevoi A. Snicker |
| author_sort | P. Vincenzi |
| collection | DOAJ |
| description | This paper explores the operational boundaries and power availability of the neutral beam injection (NBI) system in ITER, with a specific focus on shine-through (ST) loss prevention. ST, a phenomenon where part of the injected neutral beam remains un-ionized in the plasma and directly impacts the first wall components, poses a significant risk to the lifetime of ITER’s plasma-facing components (PFCs). The operational window for NBI is consequently constrained by these losses, which are influenced by factors such as plasma density, beam energy, and injection geometry. Leveraging advanced numerical simulations, we investigate these dependencies across various ITER plasma scenarios, particularly for the DT-1 phase, which will mark the first NBI operations. In light of recent ITER blanket design changes, our analysis refines previous estimates of the maximum acceptable ST power on PFCs. We then present a new heuristic formula which permits the calculation of the ST fraction and the minimum plasma density that permits ITER NBI operations as a function of global variables. This allows for establishing operational limits for Hydrogen and Deuterium NBI in Hydrogen, Deuterium, and Deuterium–Tritium plasmas. Additionally, we compare commonly used beam ionisation codes for ITER and tokamak simulations, evaluating their reliability in the investigated parameter space. The findings of this study are crucial for ensuring the efficient operation of the NBI system during ITER’s experimental phases. They define the conditions under which beam power can be fully utilised without compromising operational lifetime, thereby informing future plasma operation plans and contributing to the success of ITER’s scientific objectives. |
| format | Article |
| id | doaj-art-00bf56757c3a41629efb2d276dc0be4a |
| institution | Kabale University |
| issn | 0029-5515 |
| language | English |
| publishDate | 2025-01-01 |
| publisher | IOP Publishing |
| record_format | Article |
| series | Nuclear Fusion |
| spelling | doaj-art-00bf56757c3a41629efb2d276dc0be4a2025-02-10T09:08:07ZengIOP PublishingNuclear Fusion0029-55152025-01-0165303600910.1088/1741-4326/adaf41ITER NBI operational window and power availability constraints due to shine-through lossesP. Vincenzi0https://orcid.org/0000-0002-5156-4354M. Schneider1https://orcid.org/0000-0003-4881-6861P. Veltri2https://orcid.org/0000-0002-0625-1201J.F. Artaud3A. Loarte4https://orcid.org/0000-0001-9592-1117S. Nicolici5https://orcid.org/0009-0002-3765-1926C. Poggi6https://orcid.org/0000-0001-8482-803XA.R. Polevoi7A. Snicker8https://orcid.org/0000-0001-9604-9666Consorzio RFX (CNR, ENEA, INFN, Universita’ di Padova , Acciaierie Venete SpA), Padova 35127, Italy; Institute for Plasma Science and Technology , National Research Council, 35127 Padova, ItalyITER Organization , Route de Vinon-sur-Verdon, CS 90 046, 13067 St. Paul-lez-Durance, FranceITER Organization , Route de Vinon-sur-Verdon, CS 90 046, 13067 St. Paul-lez-Durance, FranceCEA , IRFM, F-13108 Saint-Paul-lez-Durance, FranceITER Organization , Route de Vinon-sur-Verdon, CS 90 046, 13067 St. Paul-lez-Durance, FranceITER Organization , Route de Vinon-sur-Verdon, CS 90 046, 13067 St. Paul-lez-Durance, FranceITER Organization , Route de Vinon-sur-Verdon, CS 90 046, 13067 St. Paul-lez-Durance, FranceITER Organization , Route de Vinon-sur-Verdon, CS 90 046, 13067 St. Paul-lez-Durance, FranceVTT Technical Research Centre of Finland Ltd , Espoo, FinlandThis paper explores the operational boundaries and power availability of the neutral beam injection (NBI) system in ITER, with a specific focus on shine-through (ST) loss prevention. ST, a phenomenon where part of the injected neutral beam remains un-ionized in the plasma and directly impacts the first wall components, poses a significant risk to the lifetime of ITER’s plasma-facing components (PFCs). The operational window for NBI is consequently constrained by these losses, which are influenced by factors such as plasma density, beam energy, and injection geometry. Leveraging advanced numerical simulations, we investigate these dependencies across various ITER plasma scenarios, particularly for the DT-1 phase, which will mark the first NBI operations. In light of recent ITER blanket design changes, our analysis refines previous estimates of the maximum acceptable ST power on PFCs. We then present a new heuristic formula which permits the calculation of the ST fraction and the minimum plasma density that permits ITER NBI operations as a function of global variables. This allows for establishing operational limits for Hydrogen and Deuterium NBI in Hydrogen, Deuterium, and Deuterium–Tritium plasmas. Additionally, we compare commonly used beam ionisation codes for ITER and tokamak simulations, evaluating their reliability in the investigated parameter space. The findings of this study are crucial for ensuring the efficient operation of the NBI system during ITER’s experimental phases. They define the conditions under which beam power can be fully utilised without compromising operational lifetime, thereby informing future plasma operation plans and contributing to the success of ITER’s scientific objectives.https://doi.org/10.1088/1741-4326/adaf41ITERNBIshine-throughpower loadauxiliary powerH&CD |
| spellingShingle | P. Vincenzi M. Schneider P. Veltri J.F. Artaud A. Loarte S. Nicolici C. Poggi A.R. Polevoi A. Snicker ITER NBI operational window and power availability constraints due to shine-through losses Nuclear Fusion ITER NBI shine-through power load auxiliary power H&CD |
| title | ITER NBI operational window and power availability constraints due to shine-through losses |
| title_full | ITER NBI operational window and power availability constraints due to shine-through losses |
| title_fullStr | ITER NBI operational window and power availability constraints due to shine-through losses |
| title_full_unstemmed | ITER NBI operational window and power availability constraints due to shine-through losses |
| title_short | ITER NBI operational window and power availability constraints due to shine-through losses |
| title_sort | iter nbi operational window and power availability constraints due to shine through losses |
| topic | ITER NBI shine-through power load auxiliary power H&CD |
| url | https://doi.org/10.1088/1741-4326/adaf41 |
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