Core-SOL simulations of high-power JET-ILW pulses fuelled with gas and/or with pellets

Līga Avotiņa; Larisa Baumane; Mihails Haļitovs; Patrīcija Kalniņa; Gunta Ķizāne; Elza Lagzdiņa; Andris Leščinskis; Elīna Pajuste; Toms Elvijs Šusts; Anete Stīne Teimane; Aigars Vītiņš; Rūdolfs Jānis Zabolockis; Artūrs Zariņš; JET Contributors

doi:10.1002/ctpp.202100186

Core-SOL simulations of high-power JET-ILW pulses fuelled with gas and/or with pellets

Līga Avotiņa (Darba grupas dalībnieks)
, Larisa Baumane (Darba grupas dalībnieks)
, Mihails Haļitovs (Darba grupas dalībnieks)
, Patrīcija Kalniņa (Darba grupas dalībnieks)
, Gunta Ķizāne (Darba grupas dalībnieks)
, Elza Lagzdiņa (Darba grupas dalībnieks)
, Andris Leščinskis (Darba grupas dalībnieks)
, Elīna Pajuste (Darba grupas dalībnieks)
, Toms Elvijs Šusts (Darba grupas dalībnieks)
, Anete Stīne Teimane (Darba grupas dalībnieks)
, Aigars Vītiņš (Darba grupas dalībnieks)
, Rūdolfs Jānis Zabolockis (Darba grupas dalībnieks)
, Artūrs Zariņš (Darba grupas dalībnieks)
, JET Contributors

Zinātniskās darbības rezultāts: Devums žurnālam › Zinātniskais raksts (žurnālā) › koleģiāli recenzēts

2 Atsauces (Scopus)

Kopsavilkums

Experimental analysis of two couples of pulses in the range of input power of 26–32 MW, shows that addition of pellet throughput to high gas dosing pulses does not modify the plasma energy, but leads to better conditions as far as the tungsten concentration and core radiation are concerned. Significantly decreasing the gas dosing with addition of high pellet throughput causes the increase of plasma energy, but the W concentration increases from 5.2 × 10⁻⁵ to 6.9 × 10⁻⁵ and the core radiation from 7.5 to 11 MW. From the numerical results of the self-consistent core-SOL COREDIV code two mechanisms appear to be responsible for the observed different W concentrations: the core residence time of W, which is related to the energy and particle confinement time, and the divertor impurity screening efficiency, dependent on the electron density and on the perpendicular transport coefficient in the SOL.

Oriģinālvaloda	Angļu
Raksta numurs	e202100186
Žurnāls	Contributions to Plasma Physics
Sējums	62
Izdevuma numurs	5-6
DOIs	https://doi.org/10.1002/ctpp.202100186
Publikācijas statuss	Publicēts - 1 jūn. 2022

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Avotiņa, L., Baumane, L., Haļitovs, M., Kalniņa, P., Ķizāne, G., Lagzdiņa, E., Leščinskis, A., Pajuste, E., Šusts, T. E., Teimane, A. S., Vītiņš, A., Zabolockis, R. J., Zariņš, A., & Contributors, JET. (2022). Core-SOL simulations of high-power JET-ILW pulses fuelled with gas and/or with pellets. Contributions to Plasma Physics, 62(5-6), Zinātniskais raksts e202100186. https://doi.org/10.1002/ctpp.202100186

@article{a2ed42221d7149e69e93c5ac840c7f44,

title = "Core-SOL simulations of high-power JET-ILW pulses fuelled with gas and/or with pellets",

abstract = "Experimental analysis of two couples of pulses in the range of input power of 26–32 MW, shows that addition of pellet throughput to high gas dosing pulses does not modify the plasma energy, but leads to better conditions as far as the tungsten concentration and core radiation are concerned. Significantly decreasing the gas dosing with addition of high pellet throughput causes the increase of plasma energy, but the W concentration increases from 5.2 × 10−5 to 6.9 × 10−5 and the core radiation from 7.5 to 11 MW. From the numerical results of the self-consistent core-SOL COREDIV code two mechanisms appear to be responsible for the observed different W concentrations: the core residence time of W, which is related to the energy and particle confinement time, and the divertor impurity screening efficiency, dependent on the electron density and on the perpendicular transport coefficient in the SOL.",

keywords = "COREDIV, impurity transport, JET tokamak, modelling",

author = "Līga Avotiņa and Larisa Baumane and Mihails Haļitovs and Patrīcija Kalniņa and Gunta Ķizāne and Elza Lagzdiņa and Andris Le{\v s}{\v c}inskis and Elīna Pajuste and {\v S}usts, \{Toms Elvijs\} and Teimane, \{Anete Stīne\} and Aigars Vītiņ{\v s} and Zabolockis, \{Rūdolfs Jānis\} and Artūrs Zariņ{\v s} and JET Contributors",

note = "Publisher Copyright: {\textcopyright} 2022 Instytut Fizyki Plazmy i Laserowej Mikrosyntezy. Contributions to Plasma Physics published by Wiley-VCH GmbH.",

year = "2022",

month = jun,

day = "1",

doi = "10.1002/ctpp.202100186",

language = "English",

volume = "62",

journal = "Contributions to Plasma Physics",

issn = "0863-1042",

publisher = "John Wiley \& Sons Inc.",

number = "5-6",

}

Avotiņa, L, Baumane, L, Haļitovs, M , Kalniņa, P, Ķizāne, G, Lagzdiņa, E, Leščinskis, A , Pajuste, E, Šusts, TE, Teimane, AS , Vītiņš, A , Zabolockis, RJ , Zariņš, A & Contributors, JET 2022, 'Core-SOL simulations of high-power JET-ILW pulses fuelled with gas and/or with pellets', Contributions to Plasma Physics, sēj. 62, Nr. 5-6, e202100186. https://doi.org/10.1002/ctpp.202100186

Core-SOL simulations of high-power JET-ILW pulses fuelled with gas and/or with pellets. / Avotiņa, Līga (Darba grupas dalībnieks); Baumane, Larisa (Darba grupas dalībnieks); Haļitovs, Mihails (Darba grupas dalībnieks) u.c.
(gadā): Contributions to Plasma Physics, Sēj. 62, Nr. 5-6, e202100186, 01.06.2022.

Zinātniskās darbības rezultāts: Devums žurnālam › Zinātniskais raksts (žurnālā) › koleģiāli recenzēts

TY - JOUR

T1 - Core-SOL simulations of high-power JET-ILW pulses fuelled with gas and/or with pellets

AU - Contributors, JET

A2 - Avotiņa, Līga

A2 - Baumane, Larisa

A2 - Haļitovs, Mihails

A2 - Kalniņa, Patrīcija

A2 - Ķizāne, Gunta

A2 - Lagzdiņa, Elza

A2 - Leščinskis, Andris

A2 - Pajuste, Elīna

A2 - Šusts, Toms Elvijs

A2 - Teimane, Anete Stīne

A2 - Vītiņš, Aigars

A2 - Zabolockis, Rūdolfs Jānis

A2 - Zariņš, Artūrs

PY - 2022/6/1

Y1 - 2022/6/1

N2 - Experimental analysis of two couples of pulses in the range of input power of 26–32 MW, shows that addition of pellet throughput to high gas dosing pulses does not modify the plasma energy, but leads to better conditions as far as the tungsten concentration and core radiation are concerned. Significantly decreasing the gas dosing with addition of high pellet throughput causes the increase of plasma energy, but the W concentration increases from 5.2 × 10−5 to 6.9 × 10−5 and the core radiation from 7.5 to 11 MW. From the numerical results of the self-consistent core-SOL COREDIV code two mechanisms appear to be responsible for the observed different W concentrations: the core residence time of W, which is related to the energy and particle confinement time, and the divertor impurity screening efficiency, dependent on the electron density and on the perpendicular transport coefficient in the SOL.

AB - Experimental analysis of two couples of pulses in the range of input power of 26–32 MW, shows that addition of pellet throughput to high gas dosing pulses does not modify the plasma energy, but leads to better conditions as far as the tungsten concentration and core radiation are concerned. Significantly decreasing the gas dosing with addition of high pellet throughput causes the increase of plasma energy, but the W concentration increases from 5.2 × 10−5 to 6.9 × 10−5 and the core radiation from 7.5 to 11 MW. From the numerical results of the self-consistent core-SOL COREDIV code two mechanisms appear to be responsible for the observed different W concentrations: the core residence time of W, which is related to the energy and particle confinement time, and the divertor impurity screening efficiency, dependent on the electron density and on the perpendicular transport coefficient in the SOL.

KW - COREDIV

KW - impurity transport

KW - JET tokamak

KW - modelling

UR - https://onlinelibrary.wiley.com/doi/10.1002/ctpp.202100186

UR - https://www.scopus.com/pages/publications/85131896100

U2 - 10.1002/ctpp.202100186

DO - 10.1002/ctpp.202100186

M3 - Article

SN - 0863-1042

VL - 62

JO - Contributions to Plasma Physics

JF - Contributions to Plasma Physics

IS - 5-6

M1 - e202100186

ER -

Core-SOL simulations of high-power JET-ILW pulses fuelled with gas and/or with pellets

Kopsavilkums

ANO IAM

OECD Zinātnes nozare

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