Preparing for first diverted plasma operation in the ST40 high-field spherical tokamak

M. Romanelli; S. McNamara; P. Buxton; O. Asunta; J. Varje; J. Wood; C. Marsden; J. Bland; V. Nemytov; P. Thomas; M. Gryaznevich; M. Sertoli; B. Vincent; S. Sridhar; A. Dnestrovsky; S. Medvedev; V. Drozdov; S. Janhunen; J. Sinha; T. Bogaarts; G. Rubino; P. Innocenti; G. Calabro; M. Scarpari; P. Fanelli; F. Giorgetti; R. Lombroni; S. Kaye; A. Diallo; W. Guttenfelder; M. Barnes; Y. Zhang

Preparing for first diverted plasma operation in the ST40 high-field spherical tokamak

M. Romanelli
, S. McNamara
, P. Buxton
, O. Asunta
, J. Varje
, J. Wood
, C. Marsden
, J. Bland
, V. Nemytov
, P. Thomas
, M. Gryaznevich
, M. Sertoli
, B. Vincent
, S. Sridhar
, A. Dnestrovsky
, S. Medvedev
, V. Drozdov
, S. Janhunen
, J. Sinha
, T. Bogaarts

G. Rubino, P. Innocenti, G. Calabro, M. Scarpari, P. Fanelli, F. Giorgetti, R. Lombroni, S. Kaye, A. Diallo, W. Guttenfelder, M. Barnes, Y. Zhang

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

1 Scopus citations

Abstract

The ST40 tokamak [1], built and operated by Tokamak Energy, has recently been upgraded with upper and lower divertors to enable double null diverted operations with up to 1MA plasma current and 2MW neutral beam heating. ST40 is a high field spherical tokamak (ST), BT=3T at R0=0.4m with a goal to extend the high field spherical tokamak physics basis. Crucially, transport and confinement in high field, high temperature STs will be explored in support to the design of next step STs [2]. Extensive modelling activities have been undertaken to prepare for the exploitation of ST40. A range of plasma equilibrium in double-null configuration have been designed along with detailed scenario modelling, including 1.5D transport simulations and 2D SOL modelling. Gyrokinetic analysis has been performed to assess the level of expected turbulent transport. Building upon the NSTX pedestal database the pedestal width and height in the high performance ST40 scenarios have been predicted. MHD stability analysis and beta limit have been assessed. ST40 will be initially operated in hydrogen with up to 1.5 MW NBI (0.8MW at 55kV and 0.7MW at 25kV). The heating systems will be upgraded in view of the follow up campaign in deuterium, with 2MW, 55kV NBI and around 1.6MW 105/140GHz ECRH. Careful analysis of the power deposited in the divertor during high performance operation has also been carried out.

Original language	English (US)
Title of host publication	47th EPS Conference on Plasma Physics, EPS 2021
Publisher	European Physical Society (EPS)
Pages	681-684
Number of pages	4
ISBN (Electronic)	9781713837046
State	Published - 2021
Event	47th EPS Conference on Plasma Physics, EPS 2021 - Sitges, Spain Duration: Jun 21 2021 → Jun 25 2021

Publication series

Name	47th EPS Conference on Plasma Physics, EPS 2021
Volume	2021-June

Conference

Conference	47th EPS Conference on Plasma Physics, EPS 2021
Country/Territory	Spain
City	Sitges
Period	6/21/21 → 6/25/21

All Science Journal Classification (ASJC) codes

Atomic and Molecular Physics, and Optics

Cite this

Romanelli, M., McNamara, S., Buxton, P., Asunta, O., Varje, J., Wood, J., Marsden, C., Bland, J., Nemytov, V., Thomas, P., Gryaznevich, M., Sertoli, M., Vincent, B., Sridhar, S., Dnestrovsky, A., Medvedev, S., Drozdov, V., Janhunen, S., Sinha, J., ... Zhang, Y. (2021). Preparing for first diverted plasma operation in the ST40 high-field spherical tokamak. In 47th EPS Conference on Plasma Physics, EPS 2021 (pp. 681-684). (47th EPS Conference on Plasma Physics, EPS 2021; Vol. 2021-June). European Physical Society (EPS).

@inproceedings{4daff154615048e198ec61a0401bc242,

title = "Preparing for first diverted plasma operation in the ST40 high-field spherical tokamak",

abstract = "The ST40 tokamak [1], built and operated by Tokamak Energy, has recently been upgraded with upper and lower divertors to enable double null diverted operations with up to 1MA plasma current and 2MW neutral beam heating. ST40 is a high field spherical tokamak (ST), BT=3T at R0=0.4m with a goal to extend the high field spherical tokamak physics basis. Crucially, transport and confinement in high field, high temperature STs will be explored in support to the design of next step STs [2]. Extensive modelling activities have been undertaken to prepare for the exploitation of ST40. A range of plasma equilibrium in double-null configuration have been designed along with detailed scenario modelling, including 1.5D transport simulations and 2D SOL modelling. Gyrokinetic analysis has been performed to assess the level of expected turbulent transport. Building upon the NSTX pedestal database the pedestal width and height in the high performance ST40 scenarios have been predicted. MHD stability analysis and beta limit have been assessed. ST40 will be initially operated in hydrogen with up to 1.5 MW NBI (0.8MW at 55kV and 0.7MW at 25kV). The heating systems will be upgraded in view of the follow up campaign in deuterium, with 2MW, 55kV NBI and around 1.6MW 105/140GHz ECRH. Careful analysis of the power deposited in the divertor during high performance operation has also been carried out.",

author = "M. Romanelli and S. McNamara and P. Buxton and O. Asunta and J. Varje and J. Wood and C. Marsden and J. Bland and V. Nemytov and P. Thomas and M. Gryaznevich and M. Sertoli and B. Vincent and S. Sridhar and A. Dnestrovsky and S. Medvedev and V. Drozdov and S. Janhunen and J. Sinha and T. Bogaarts and G. Rubino and P. Innocenti and G. Calabro and M. Scarpari and P. Fanelli and F. Giorgetti and R. Lombroni and S. Kaye and A. Diallo and W. Guttenfelder and M. Barnes and Y. Zhang",

note = "Publisher Copyright: {\textcopyright} 2021 47th EPS Conference on Plasma Physics, EPS 2021. All rights reserved.; 47th EPS Conference on Plasma Physics, EPS 2021 ; Conference date: 21-06-2021 Through 25-06-2021",

year = "2021",

language = "English (US)",

series = "47th EPS Conference on Plasma Physics, EPS 2021",

publisher = "European Physical Society (EPS)",

pages = "681--684",

booktitle = "47th EPS Conference on Plasma Physics, EPS 2021",

}

Romanelli, M, McNamara, S, Buxton, P, Asunta, O, Varje, J, Wood, J, Marsden, C, Bland, J, Nemytov, V, Thomas, P, Gryaznevich, M, Sertoli, M, Vincent, B, Sridhar, S, Dnestrovsky, A, Medvedev, S, Drozdov, V, Janhunen, S, Sinha, J, Bogaarts, T, Rubino, G, Innocenti, P, Calabro, G, Scarpari, M, Fanelli, P, Giorgetti, F, Lombroni, R, Kaye, S , Diallo, A , Guttenfelder, W, Barnes, M & Zhang, Y 2021, Preparing for first diverted plasma operation in the ST40 high-field spherical tokamak. in 47th EPS Conference on Plasma Physics, EPS 2021. 47th EPS Conference on Plasma Physics, EPS 2021, vol. 2021-June, European Physical Society (EPS), pp. 681-684, 47th EPS Conference on Plasma Physics, EPS 2021, Sitges, Spain, 6/21/21.

Preparing for first diverted plasma operation in the ST40 high-field spherical tokamak. / Romanelli, M.; McNamara, S.; Buxton, P. et al.
47th EPS Conference on Plasma Physics, EPS 2021. European Physical Society (EPS), 2021. p. 681-684 (47th EPS Conference on Plasma Physics, EPS 2021; Vol. 2021-June).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

TY - GEN

T1 - Preparing for first diverted plasma operation in the ST40 high-field spherical tokamak

AU - Romanelli, M.

AU - McNamara, S.

AU - Buxton, P.

AU - Asunta, O.

AU - Varje, J.

AU - Wood, J.

AU - Marsden, C.

AU - Bland, J.

AU - Nemytov, V.

AU - Thomas, P.

AU - Gryaznevich, M.

AU - Sertoli, M.

AU - Vincent, B.

AU - Sridhar, S.

AU - Dnestrovsky, A.

AU - Medvedev, S.

AU - Drozdov, V.

AU - Janhunen, S.

AU - Sinha, J.

AU - Bogaarts, T.

AU - Rubino, G.

AU - Innocenti, P.

AU - Calabro, G.

AU - Scarpari, M.

AU - Fanelli, P.

AU - Giorgetti, F.

AU - Lombroni, R.

AU - Kaye, S.

AU - Diallo, A.

AU - Guttenfelder, W.

AU - Barnes, M.

AU - Zhang, Y.

PY - 2021

Y1 - 2021

N2 - The ST40 tokamak [1], built and operated by Tokamak Energy, has recently been upgraded with upper and lower divertors to enable double null diverted operations with up to 1MA plasma current and 2MW neutral beam heating. ST40 is a high field spherical tokamak (ST), BT=3T at R0=0.4m with a goal to extend the high field spherical tokamak physics basis. Crucially, transport and confinement in high field, high temperature STs will be explored in support to the design of next step STs [2]. Extensive modelling activities have been undertaken to prepare for the exploitation of ST40. A range of plasma equilibrium in double-null configuration have been designed along with detailed scenario modelling, including 1.5D transport simulations and 2D SOL modelling. Gyrokinetic analysis has been performed to assess the level of expected turbulent transport. Building upon the NSTX pedestal database the pedestal width and height in the high performance ST40 scenarios have been predicted. MHD stability analysis and beta limit have been assessed. ST40 will be initially operated in hydrogen with up to 1.5 MW NBI (0.8MW at 55kV and 0.7MW at 25kV). The heating systems will be upgraded in view of the follow up campaign in deuterium, with 2MW, 55kV NBI and around 1.6MW 105/140GHz ECRH. Careful analysis of the power deposited in the divertor during high performance operation has also been carried out.

AB - The ST40 tokamak [1], built and operated by Tokamak Energy, has recently been upgraded with upper and lower divertors to enable double null diverted operations with up to 1MA plasma current and 2MW neutral beam heating. ST40 is a high field spherical tokamak (ST), BT=3T at R0=0.4m with a goal to extend the high field spherical tokamak physics basis. Crucially, transport and confinement in high field, high temperature STs will be explored in support to the design of next step STs [2]. Extensive modelling activities have been undertaken to prepare for the exploitation of ST40. A range of plasma equilibrium in double-null configuration have been designed along with detailed scenario modelling, including 1.5D transport simulations and 2D SOL modelling. Gyrokinetic analysis has been performed to assess the level of expected turbulent transport. Building upon the NSTX pedestal database the pedestal width and height in the high performance ST40 scenarios have been predicted. MHD stability analysis and beta limit have been assessed. ST40 will be initially operated in hydrogen with up to 1.5 MW NBI (0.8MW at 55kV and 0.7MW at 25kV). The heating systems will be upgraded in view of the follow up campaign in deuterium, with 2MW, 55kV NBI and around 1.6MW 105/140GHz ECRH. Careful analysis of the power deposited in the divertor during high performance operation has also been carried out.

UR - https://www.scopus.com/pages/publications/85119664242

UR - https://www.scopus.com/pages/publications/85119664242#tab=citedBy

M3 - Conference contribution

AN - SCOPUS:85119664242

T3 - 47th EPS Conference on Plasma Physics, EPS 2021

SP - 681

EP - 684

BT - 47th EPS Conference on Plasma Physics, EPS 2021

PB - European Physical Society (EPS)

T2 - 47th EPS Conference on Plasma Physics, EPS 2021

Y2 - 21 June 2021 through 25 June 2021

ER -

Preparing for first diverted plasma operation in the ST40 high-field spherical tokamak

Abstract

Publication series

Conference

All Science Journal Classification (ASJC) codes

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