Influence of the density gradient on turbulent heat transport at ion-scales: an inter-machine study with the gyrokinetic code stella

Thienpondt, H; García-Regaña, J; Calvo, I; Acton, G; Barnes, M

Journal article

Influence of the density gradient on turbulent heat transport at ion-scales: an inter-machine study with the gyrokinetic code stella

Abstract:: Efficient control of turbulent heat transport is crucial for magnetic confinement fusion reactors. This work discusses the complex interplay between density gradients and microinstabilities, shedding light on their impact on turbulent heat transport in different fusion devices. In particular, the influence of density gradients on turbulent heat transport is investigated through an extensive inter-machine study, including various stellarators such as W7-X, LHD, TJ-II and NCSX, along with the Asdex Upgrade tokamak (AUG) and the tokamak geometry of the Cyclone Base Case (CBC). Linear and nonlinear simulations are performed employing the δf-gyrokinetic code stella across a wide range of parameters to explore the effects of density gradients, temperature gradients, and kinetic electrons. A strong reduction in ion heat flux with increasing density gradients is found in NCSX and W7-X due to the stabilization of temperature-gradient-driven modes without significantly destabilizing density-gradient-driven modes. In contrast, the tokamaks exhibit an increase in ion heat flux with density gradients. Notably, the behavior of ion heat fluxes in stellarators does not align with that of linear growth rates, if only the fastest-growing mode is taken into account. Additionally, this study provides physical insights into the microinstabilities, emphasizing the dominance of trapped-electron-modes (TEMs) in CBC, AUG, TJ-II, LHD and NCSX, while both the TEM and the passing-particle-driven universal instability contribute significantly in W7-X.

Publication status:: Published

Peer review status:: Peer reviewed

Actions

Email

Email this record

Send the bibliographic details of this record to your email address.

Your Email
Please enter the email address that the record information will be sent to.

-
Your message (optional)
Please add any additional information to be included within the email.
Cite

Cite this record

APA Style

Thienpondt, H., García-Regaña, J., Calvo, I., Acton, G., & Barnes, M. (2024). Influence of the density gradient on turbulent heat transport at ion-scales: an inter-machine study with the gyrokinetic code stella. Nuclear Fusion, 65(1).

MLA Style

Thienpondt, H., et al. “Influence of the Density Gradient on Turbulent Heat Transport at Ion-Scales: an Inter-Machine Study with the Gyrokinetic Code Stella.” Nuclear Fusion, vol. 65, no. 1, IOP Publishing, 2024.

Chicago Style

Thienpondt, H, J García-Regaña, I Calvo, G Acton, and M Barnes. 2024. “Influence of the Density Gradient on Turbulent Heat Transport at Ion-Scales: an Inter-Machine Study with the Gyrokinetic Code Stella.” Nuclear Fusion 65 (1).
Share
Print