High fusion performance at high Ti/Te in JET-ILW baseline plasmas with high NBI heating power and low gas puffing

Kim, Hyun-Tae; Sips, A. C. C.; Romanelli, M.; Challis, C. D.; Rimini, F.; Garzotti, L.; Lerche, E.; Buchanan, J.; Yuan, X.; Kaye, S.

doi:10.1088/1741-4326/aaa582

Title: High fusion performance at high T_i/T_e in JET-ILW baseline plasmas with high NBI heating power and low gas puffing

Abstract

This article presents the transport analysis of high density baseline discharges in the 2016 experimental campaign of the Joint European Torus with the ITER-Like Wall (JET-ILW), where a significant increase in the deuterium–deuterium (D–D) fusion neutron rate (~2.8 × 10¹⁶ s^-1) was achieved with stable high neutral beam injection (NBI) powers of up to 28 MW and low gas puffing. Increase in T_i exceeding T_e were produced for the first time in baseline discharges despite the high electron density; this enabled a significant increase in the thermal fusion reaction rate. As a result, the new achieved record in fusion performance was much higher than the previous record in the same heating power baseline discharges, where T_i = T_e. In addition to the decreases in collisionality and the increases in ion heating fraction in the discharges with high NBI power, T_i > T_e can also be attributed to positive feedback between the high T_i/T_e ratio and stabilisation of the turbulent heat flux resulting from the ion temperature gradient driven mode. The high T_i/T_e ratio was correlated with high rotation frequency. Among the discharges with identical beam heating power, higher rotation frequencies were observed when particle fuelling was provided by low gasmore »« less

Authors:

Kim, Hyun-Tae ^[1]; Sips, A. C. C. ^[2]; Romanelli, M. ^[3]; Challis, C. D. ^[3]; Rimini, F. ^[3];

^[3]; Lerche, E. ^[4]; Buchanan, J. ^[3]; Yuan, X. ^[5]; Kaye, S. ^[5]

Culham Science Centre, Abingdon (United Kingdom). EUROfusion Programme Management Unit
Culham Science Centre, Abingdon (United Kingdom). JET Exploitation Unit
Culham Science Centre, Abingdon (United Kingdom). Culham Centre for Fusion Energy (CCFE)
Culham Science Centre, Abingdon (United Kingdom). Culham Centre for Fusion Energy (CCFE); Lab. for Plasma Physics of the Ecole Royale Militaire / Koninklijke Militaire School (LPP-ERM/KMS), Brussels (Belgium)
Princeton Plasma Physics Lab. (PPPL), Princeton, NJ (United States)

Publication Date:: Thu Feb 01 00:00:00 EST 2018

Research Org.:: Princeton Plasma Physics Laboratory (PPPL), Princeton, NJ (United States)

Sponsoring Org.:: USDOE; European Commission (EC)

Contributing Org.:: JET contributors

OSTI Identifier:: 1432663

Grant/Contract Number:: 633053

Resource Type:: Accepted Manuscript

Journal Name:: Nuclear Fusion

Additional Journal Information:: Journal Volume: 58; Journal Issue: 3; Journal ID: ISSN 0029-5515

Publisher:: IOP Science

Country of Publication:: United States

Language:: English

Subject:: 70 PLASMA PHYSICS AND FUSION TECHNOLOGY; JET-ILW; baseline scenario; Ti/Te; gas puffing; TRANSP; fusion performance

Citation Formats


                    Kim, Hyun-Tae, Sips, A. C. C., Romanelli, M., Challis, C. D., Rimini, F., Garzotti, L., Lerche, E., Buchanan, J., Yuan, X., and Kaye, S. High fusion performance at high Ti/Te in JET-ILW baseline plasmas with high NBI heating power and low gas puffing.  United States: N. p., 2018. 
Web.  doi:10.1088/1741-4326/aaa582.

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                    Kim, Hyun-Tae, Sips, A. C. C., Romanelli, M., Challis, C. D., Rimini, F., Garzotti, L., Lerche, E., Buchanan, J., Yuan, X., & Kaye, S. High fusion performance at high Ti/Te in JET-ILW baseline plasmas with high NBI heating power and low gas puffing.  United States.  https://doi.org/10.1088/1741-4326/aaa582

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                    Kim, Hyun-Tae, Sips, A. C. C., Romanelli, M., Challis, C. D., Rimini, F., Garzotti, L., Lerche, E., Buchanan, J., Yuan, X., and Kaye, S. Thu .  
"High fusion performance at high Ti/Te in JET-ILW baseline plasmas with high NBI heating power and low gas puffing".  United States.  https://doi.org/10.1088/1741-4326/aaa582.  https://www.osti.gov/servlets/purl/1432663.

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@article{osti_1432663,

  title        = {High fusion performance at high Ti/Te in JET-ILW baseline plasmas with high NBI heating power and low gas puffing},

  author       = {Kim, Hyun-Tae and Sips, A. C. C. and Romanelli, M. and Challis, C. D. and Rimini, F. and Garzotti, L. and Lerche, E. and Buchanan, J. and Yuan, X. and Kaye, S.},

  abstractNote = {This article presents the transport analysis of high density baseline discharges in the 2016 experimental campaign of the Joint European Torus with the ITER-Like Wall (JET-ILW), where a significant increase in the deuterium–deuterium (D–D) fusion neutron rate (~2.8 × 1016 s-1) was achieved with stable high neutral beam injection (NBI) powers of up to 28 MW and low gas puffing. Increase in Ti exceeding Te were produced for the first time in baseline discharges despite the high electron density; this enabled a significant increase in the thermal fusion reaction rate. As a result, the new achieved record in fusion performance was much higher than the previous record in the same heating power baseline discharges, where Ti = Te. In addition to the decreases in collisionality and the increases in ion heating fraction in the discharges with high NBI power, Ti > Te can also be attributed to positive feedback between the high Ti/Te ratio and stabilisation of the turbulent heat flux resulting from the ion temperature gradient driven mode. The high Ti/Te ratio was correlated with high rotation frequency. Among the discharges with identical beam heating power, higher rotation frequencies were observed when particle fuelling was provided by low gas puffing and pellet injection. Lastly, this reveals that particle fuelling played a key role for achieving high Ti/Te, and the improved fusion performance.},

  doi          = {10.1088/1741-4326/aaa582},

  journal      = {Nuclear Fusion},

  number       = 3,

  volume       = 58,

  place        = {United States},

  year         = {Thu Feb 01 00:00:00 EST 2018},

  month        = {Thu Feb 01 00:00:00 EST 2018}

}

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Cited by: 25 works

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Figures / Tables:

Figure 1: Measured neutrons against (a) NBI heating power, (b)ICRH power, (c) total heating power (NBI + ICRH). The red and black circles are the discharges with high neutron rates (>1e16#/sec) and low (<1e16#/sec) neutron rates, respectively. Please note, the red and black circles correspond to the discharges with themore »

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Works referencing / citing this record:

UKAEA capabilities to address the challenges on the path to delivering fusion power
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Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, Vol. 377, Issue 2141
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Global scaling of the heat transport in fusion plasmas
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UKAEA capabilities to address the challenges on the path to delivering fusion power
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text, January 2021

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DOI: 10.48550/arxiv.2103.02679

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Title: High fusion performance at high Ti/Te in JET-ILW baseline plasmas with high NBI heating power and low gas puffing

Abstract

Citation Formats

Figures / Tables:

Properties of ion temperature gradient drift instabilities in H ‐mode plasmas journal, June 1989

Chapter 1: Overview and summary journal, December 1999

`Quasi-local' wave equations in toroidal geometry with applications to fast wave propagation and absorption at high harmonics of the ion cyclotron frequency journal, October 2002

Comparative gyrokinetic analysis of JET baseline H-mode core plasmas with carbon wall and ITER-like wall journal, February 2016

JETTO simulations of T e / T i effects on plasma confinement journal, February 2005

Effects of temperature ratio on JET transport in hot ion and hot electron regimes journal, February 2005

Characterization of ion heat conduction in JET and ASDEX Upgrade plasmas with and without internal transport barriers journal, August 2003

Comparison of hybrid and baseline ELMy H-mode confinement in JET with the carbon wall journal, December 2012

Overview of the JET results in support to ITER journal, June 2017

Physics of high performance JET plasmas in DT journal, September 1999

Observation of Alpha Heating in JET DT Plasmas journal, June 1998

JET Program for Closing Gaps to Fusion Energy journal, September 2016

ITER operation beyond its baseline scenario journal, November 2005

Advanced scenarios for ITER operation journal, April 2005

New techniques for calculating heat and particle source rates due to neutral beam injection in axisymmetric tokamaks journal, September 1981

Dependence of Heat and Particle Transport on the Ratio of the Ion and Electron Temperatures journal, November 1999

Experimental Study of the Ion Critical-Gradient Length and Stiffness Level and the Impact of Rotation in the JET Tokamak journal, April 2009

A Key to Improved Ion Core Confinement in the JET Tokamak: Ion Stiffness Mitigation due to Combined Plasma Rotation and Low Magnetic Shear journal, September 2011

Advanced scenarios for ITER operation text, January 2004

UKAEA capabilities to address the challenges on the path to delivering fusion power journal, February 2019

Global scaling of the heat transport in fusion plasmas journal, January 2020

Global scaling of the heat transport in fusion plasmas text, January 2019

UKAEA capabilities to address the challenges on the path to delivering fusion power journal, February 2019

New plasma regimes with small ELMs and high confinement at the Joint European Torus text, January 2021

Title: High fusion performance at high T_i/T_e in JET-ILW baseline plasmas with high NBI heating power and low gas puffing

Properties of ion temperature gradient drift instabilities in H ‐mode plasmas
journal, June 1989

Chapter 1: Overview and summary
journal, December 1999

`Quasi-local' wave equations in toroidal geometry with applications to fast wave propagation and absorption at high harmonics of the ion cyclotron frequency
journal, October 2002

Comparative gyrokinetic analysis of JET baseline H-mode core plasmas with carbon wall and ITER-like wall
journal, February 2016

JETTO simulations of T _e / T _i effects on plasma confinement
journal, February 2005

Effects of temperature ratio on JET transport in hot ion and hot electron regimes
journal, February 2005

Characterization of ion heat conduction in JET and ASDEX Upgrade plasmas with and without internal transport barriers
journal, August 2003

Comparison of hybrid and baseline ELMy H-mode confinement in JET with the carbon wall
journal, December 2012

Overview of the JET results in support to ITER
journal, June 2017

Physics of high performance JET plasmas in DT
journal, September 1999

Observation of Alpha Heating in JET DT Plasmas
journal, June 1998

JET Program for Closing Gaps to Fusion Energy
journal, September 2016

ITER operation beyond its baseline scenario
journal, November 2005

Advanced scenarios for ITER operation
journal, April 2005

New techniques for calculating heat and particle source rates due to neutral beam injection in axisymmetric tokamaks
journal, September 1981

Dependence of Heat and Particle Transport on the Ratio of the Ion and Electron Temperatures
journal, November 1999

Experimental Study of the Ion Critical-Gradient Length and Stiffness Level and the Impact of Rotation in the JET Tokamak
journal, April 2009

A Key to Improved Ion Core Confinement in the JET Tokamak: Ion Stiffness Mitigation due to Combined Plasma Rotation and Low Magnetic Shear
journal, September 2011

Advanced scenarios for ITER operation
text, January 2004

UKAEA capabilities to address the challenges on the path to delivering fusion power
journal, February 2019

Global scaling of the heat transport in fusion plasmas
journal, January 2020

Global scaling of the heat transport in fusion plasmas
text, January 2019

UKAEA capabilities to address the challenges on the path to delivering fusion power
journal, February 2019

New plasma regimes with small ELMs and high confinement at the Joint European Torus
text, January 2021