Real-time feedback control of the impurity emission front in tokamak divertor plasmas

T Ravensbergen; Matthijs van Berkel; A. Perek; C Galperti; B. P.  Duval; O. Février; R.J.R. van Kampen; F Felici; J. T.  Lammers; C. Theiler; Joannes Schoukens; B. Linehan; M. Komm; S. Henderson; D. Brida; M. R.  de Baar

doi:10.1038/s41467-021-21268-3

Real-time feedback control of the impurity emission front in tokamak divertor plasmas

T Ravensbergen, Matthijs van Berkel, A. Perek, C Galperti, B. P. Duval, O. Février, R.J.R. van Kampen, F Felici, J. T. Lammers, C. Theiler, Joannes Schoukens, B. Linehan, M. Komm, S. Henderson, D. Brida, M. R. de Baar

Engineering Technology

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58 Citaten (Scopus)

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In magnetic confinement thermonuclear fusion the exhaust of heat and particles from the core remains a major challenge. Heat and particles leaving the core are transported via open magnetic field lines to a region of the reactor wall, called the divertor. Unabated, the heat and particle fluxes may become intolerable and damage the divertor. Controlled ‘plasma detachment’, a regime characterized by both a large reduction in plasma pressure and temperature at the divertor target, is required to reduce fluxes onto the divertor. Here we report a systematic approach towards achieving this critical need through feedback control of impurity emission front locations and its experimental demonstration. Our approach comprises a combination of real-time plasma diagnostic utilization, dynamic characterization of the plasma in proximity to the divertor, and efficient, reliable offline feedback controller design.

Originele taal-2	English
Artikelnummer	1105
Pagina's (van-tot)	1-9
Aantal pagina's	9
Tijdschrift	Nature Communications
Volume	12
Nummer van het tijdschrift	1
DOI's	https://doi.org/10.1038/s41467-021-21268-3
Status	Published - 17 feb. 2021

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10.1038/s41467-021-21268-3

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SRP60: SRP-Groeifinanciering: A system identification framework for multi-fidelity modelling
De Troyer, T., Runacres, M., Blondeau, J., Bram, S., Bellemans, A. & Contino, F.
1/03/19 → 29/02/24
Project: Fundamenteel

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Ravensbergen, T., van Berkel, M., Perek, A., Galperti, C., Duval, B. P., Février, O., van Kampen, R. J. R., Felici, F., Lammers, J. T., Theiler, C., Schoukens, J., Linehan, B., Komm, M., Henderson, S., Brida, D., & de Baar, M. R. (2021). Real-time feedback control of the impurity emission front in tokamak divertor plasmas. Nature Communications, 12(1), 1-9. Artikel 1105. https://doi.org/10.1038/s41467-021-21268-3

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abstract = "In magnetic confinement thermonuclear fusion the exhaust of heat and particles from the core remains a major challenge. Heat and particles leaving the core are transported via open magnetic field lines to a region of the reactor wall, called the divertor. Unabated, the heat and particle fluxes may become intolerable and damage the divertor. Controlled {\textquoteleft}plasma detachment{\textquoteright}, a regime characterized by both a large reduction in plasma pressure and temperature at the divertor target, is required to reduce fluxes onto the divertor. Here we report a systematic approach towards achieving this critical need through feedback control of impurity emission front locations and its experimental demonstration. Our approach comprises a combination of real-time plasma diagnostic utilization, dynamic characterization of the plasma in proximity to the divertor, and efficient, reliable offline feedback controller design.",

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Ravensbergen, T, van Berkel, M, Perek, A, Galperti, C, Duval, BP, Février, O, van Kampen, RJR, Felici, F, Lammers, JT, Theiler, C, Schoukens, J, Linehan, B, Komm, M, Henderson, S, Brida, D & de Baar, MR 2021, 'Real-time feedback control of the impurity emission front in tokamak divertor plasmas', Nature Communications, vol. 12, nr. 1, 1105, blz. 1-9. https://doi.org/10.1038/s41467-021-21268-3

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T1 - Real-time feedback control of the impurity emission front in tokamak divertor plasmas

AU - Ravensbergen, T

AU - van Berkel, Matthijs

AU - Perek, A.

AU - Galperti, C

AU - Duval, B. P.

AU - Février, O.

AU - van Kampen, R.J.R.

AU - Felici, F

AU - Lammers, J. T.

AU - Theiler, C.

AU - Schoukens, Joannes

AU - Linehan, B.

AU - Komm, M.

AU - Henderson, S.

AU - Brida, D.

AU - de Baar, M. R.

PY - 2021/2/17

Y1 - 2021/2/17

N2 - In magnetic confinement thermonuclear fusion the exhaust of heat and particles from the core remains a major challenge. Heat and particles leaving the core are transported via open magnetic field lines to a region of the reactor wall, called the divertor. Unabated, the heat and particle fluxes may become intolerable and damage the divertor. Controlled ‘plasma detachment’, a regime characterized by both a large reduction in plasma pressure and temperature at the divertor target, is required to reduce fluxes onto the divertor. Here we report a systematic approach towards achieving this critical need through feedback control of impurity emission front locations and its experimental demonstration. Our approach comprises a combination of real-time plasma diagnostic utilization, dynamic characterization of the plasma in proximity to the divertor, and efficient, reliable offline feedback controller design.

AB - In magnetic confinement thermonuclear fusion the exhaust of heat and particles from the core remains a major challenge. Heat and particles leaving the core are transported via open magnetic field lines to a region of the reactor wall, called the divertor. Unabated, the heat and particle fluxes may become intolerable and damage the divertor. Controlled ‘plasma detachment’, a regime characterized by both a large reduction in plasma pressure and temperature at the divertor target, is required to reduce fluxes onto the divertor. Here we report a systematic approach towards achieving this critical need through feedback control of impurity emission front locations and its experimental demonstration. Our approach comprises a combination of real-time plasma diagnostic utilization, dynamic characterization of the plasma in proximity to the divertor, and efficient, reliable offline feedback controller design.

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Real-time feedback control of the impurity emission front in tokamak divertor plasmas

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