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Prediction of performance and turbulence in ITER burning plasmas via nonlinear gyrokinetic profile prediction

Journal Article · · Nuclear Fusion
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Abstract

Burning plasma performance, transport, and the effect of hydrogen isotope (H, D, D-T fuel mix) on confinement has been predicted for ITER baseline scenario (IBS) conditions using nonlinear gyrokinetic profile predictions. Accelerated by surrogate modeling (Rodriguez-Fernandez et al 2022 Nucl. Fusion 62 076036), high fidelity, nonlinear gyrokinetic simulations performed with the CGYRO code (Candy et al 2016 J. Comput. Phys. 324 73), were used to predict profiles of T i , T e , and n e while including the effects of alpha heating, auxiliary power (NBI + ECH), collisional energy exchange, and radiation losses inside of r / a = 0.9. Predicted profiles and resulting energy confinement are found to produce fusion power and gain that are approximately consistent with mission goals ( P fusion = 500 MW at Q  = 10) for the baseline scenario and exhibit energy confinement that is within 1 σ of the H-mode energy confinement scaling. The power of the surrogate modeling technique is demonstrated through the prediction of alternative ITER scenarios with reduced computational cost. These scenarios include conditions with maximized fusion gain and an investigation of potential resonant magnetic perturbation (RMP) effects on performance with a minimal number of gyrokinetic profile iterations required (3–6). These predictions highlight the stiff ITG nature of the core turbulence predicted in the ITER baseline and demonstrate that Q > 17 conditions may be accessible by reducing auxiliary input power while operating in IBS conditions. Prediction of full kinetic profiles allowed for the projection of hydrogen isotope effects around ITER baseline conditions. The gyrokinetic fuel ion species was varied from H, D, and 50/50 D-T and kinetic profiles were predicted. Results indicate that a weak or negligible isotope effect will be observed to arise from core turbulence in IBS conditions. The resulting energy confinement, turbulence, and density peaking, and the implications for ITER operations will be discussed.

Sponsoring Organization:
USDOE Office of Science (SC), Fusion Energy Sciences (FES)
Grant/Contract Number:
AC02-05CH11231
OSTI ID:
2476754
Journal Information:
Nuclear Fusion, Journal Name: Nuclear Fusion Journal Issue: 1 Vol. 65; ISSN 0029-5515
Publisher:
IOP PublishingCopyright Statement
Country of Publication:
IAEA
Language:
English

References (39)

A high-accuracy Eulerian gyrokinetic solver for collisional plasmas journal November 2016
Development of compact tokamak fusion reactor use cases to inform future transport studies journal August 2023
Particle and impurity transport in the Axial Symmetric Divertor Experiment Upgrade and the Joint European Torus, experimental observations and theoretical understanding journal May 2007
A new gyrokinetic quasilinear transport model applied to particle transport in tokamak plasmas journal November 2007
Tokamak profile prediction using direct gyrokinetic and neoclassical simulation journal June 2009
Linearized model collision operators for multiple ion species plasmas and gyrokinetic entropy balance equations journal November 2009
Direct multiscale coupling of a transport code to gyrokinetic turbulence codes journal May 2010
Multi-scale gyrokinetic simulations: Comparison with experiment and implications for predicting turbulence and transport journal April 2016
The role of zonal flows in the saturation of multi-scale gyrokinetic turbulence journal June 2016
Multi-scale transport in the DIII-D ITER baseline scenario with direct electron heating and projection to ITER journal February 2018
Isotopic scaling of confinement in deuterium–tritium plasmas journal June 1995
Quantitative predictions of tokamak energy confinement from first‐principles simulations with kinetic effects journal June 1995
Gyrokinetic simulation of turbulence and transport in the SPARC tokamak journal July 2021
Fast transport simulations with higher-fidelity surrogate models for ITER journal June 2023
Simultaneous reproduction of experimental profiles, fluxes, transport coefficients, and turbulence characteristics via nonlinear gyrokinetic profile predictions in a DIII-D ITER similar shape plasma journal March 2024
Core performance predictions in projected SPARC first-campaign plasmas with nonlinear CGYRO journal June 2024
Chapter 2: Plasma confinement and transport journal December 1999
Chapter 1: Overview and summary journal June 2007
RMP ELM suppression in DIII-D plasmas with ITER similar shapes and collisionalities journal January 2008
A first-principles predictive model of the pedestal height and width: development, testing and ITER optimization with the EPED model journal August 2011
Quantitative comparison of experimental impurity transport with nonlinear gyrokinetic simulation in an Alcator C-Mod L-mode plasma journal April 2012
3D vacuum magnetic field modelling of the ITER ELM control coil during standard operating scenarios journal August 2013
Tungsten transport in JET H-mode plasmas in hybrid scenario, experimental observations and modelling journal July 2014
Multi-scale gyrokinetic simulation of tokamak plasmas: enhanced heat loss due to cross-scale coupling of plasma turbulence journal December 2015
Kinetic calculation of neoclassical transport including self-consistent electron and impurity dynamics journal July 2008
Criteria for the importance of multi-scale interactions in turbulent transport simulations journal June 2019
Progress and challenges in understanding core transport in tokamaks in support to ITER operations journal December 2019
Rapidly-convergent flux-surface shape parameterization journal November 2020
Geometry dependence of the fluctuation intensity in gyrokinetic turbulence journal November 2020
Overview of the isotope effects in the ASDEX Upgrade tokamak journal May 2021
Modelling and theoretical understanding of the isotope effect from JET experiments in view of reliable predictions for deuterium-tritium plasmas journal March 2022
Self-consistent core-pedestal transport simulations with neural network accelerated models journal July 2017
Gyrokinetic analysis and simulation of pedestals to identify the culprits for energy losses using ‘fingerprints’ journal July 2019
The updated ITPA global H-mode confinement database: description and analysis journal January 2021
The role of ion and electron-scale turbulence in setting heat and particle transport in the DIII-D ITER baseline scenario journal August 2021
Nonlinear gyrokinetic predictions of SPARC burning plasma profiles enabled by surrogate modeling journal May 2022
Enhancing predictive capabilities in fusion burning plasmas through surrogate-based optimization in core transport solvers journal June 2024
Power requirement for accessing the H-mode in ITER journal July 2008
Reversal of Simple Hydrogenic Isotope Scaling Laws in Tokamak Edge Turbulence journal June 2020

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