Presentation is loading. Please wait.

Presentation is loading. Please wait.

1 Global Gyrokinetic Simulations of Toroidal ETG Mode in Reversed Shear Tokamaks Y. Idomura, S. Tokuda, and Y. Kishimoto Y. Idomura 1), S. Tokuda 1), and.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "1 Global Gyrokinetic Simulations of Toroidal ETG Mode in Reversed Shear Tokamaks Y. Idomura, S. Tokuda, and Y. Kishimoto Y. Idomura 1), S. Tokuda 1), and."— Presentation transcript:

1 1 Global Gyrokinetic Simulations of Toroidal ETG Mode in Reversed Shear Tokamaks Y. Idomura, S. Tokuda, and Y. Kishimoto Y. Idomura 1), S. Tokuda 1), and Y. Kishimoto 1) 2) 1) Japan Atomic Energy Research Institute 2) Kyoto University 20 th IAEA Fusion Energy Conference Vilamoura, Portugal, 1-6 November 2004 Outline Introduction Linear analysis and mixing length estimate of ETG modes ETG turbulence simulations in PS and RS tokamaks Summary

2 2Introduction ETG turbulence is experimentally relevant candidate of  e in tokamak – High suppression threshold  ExB >  than TEM (Stallard 1999) – Stiff T e profile consistent with critical L te of ETG (Hoang 2001) Results from several ETG simulations contradict with each other – In PS tokamaks, local flux tube toroidal GK simulations (Jenko 2002) show extremely high  e ~10  GB due to streamers – High  e was not recovered in local slab GF simulations (Li 2004) and large  * (  *-1 ~100) global toroidal GF simulations (Labit 2003) – In RS tokamaks, global slab GK simulations (Idomura 2000) show  e suppression by ETG driven microscopic zonal flows To understand these qualitatively and quantitatively different results, ETG turbulence is studied using global toroidal GK simulations – Linear global analysis of toroidal ETG modes in PS/RS tokamaks – Correspondence between mixing length theory and  * -scaling – Zonal flow and streamer formations in PS/RS-ETG turbulence

3 3 ETG turbulence simulation using GT3D GK toroidal PIC code based on finite element  f PIC method Gyrokinetic electrons with adiabatic ions (k   ti >>1) Annular torus geometry with fixed boundary condition  1/N wedge torus model n = 0, N, 2N, 3N… Realistic small  * =  te /a with quasi-ballooning representation Global profile effects (n e, T e, q, 1/r) – Self-consistent T e, n e are relaxed by heat/particle transport –  * te -shearing effect – Reversed q(r) profile Optimized particle loading – energy/particle conservation Validity of simulation is checked by conservation properties !

4 4 High-n solver with quasi-ballooning representation Realistic tokamak size a/  te ~10 4 : k   te ~1 (q=1.4) m=5000 – ~10 4 poloidal grids are needed without QB representation – ~10 2 poloidal grids are enough with QB representation jump condition for periodicity in  mode structure on the poloidal plane mode structure along the field line

5 5 Linear analysis and mixing length estimate of ETG modes

6 6 Linear ETG growth rate spectrum Cyclone like parameters (R 0 /L te =6.9,  e =3.12,a~8600  te ~150  ti ) – Unstable region spreads over n~2000 (m~3000, k   te ~0.7) – RS-ETG mode is excited around q min surface (Idomura 2000) – Almost the same  max in PS and RS configurations analysis domain

7 7  * scan of eigenfunctions in PS/RS tokamaks Positive shear configuration –  r of PS-ETG mode is limited by  * -shearing effect (Kim 1994) –  r of RS-ETG mode is determined by q profile (Idomura 2000) Reversed shear configuration non-resonant resonant ~60  te ~120  te a/  te ~536 a/  te ~2146 a/  te ~536 q min surface ~45  te ~40  te

8 8 Mixing length theory and  * -scaling Mixing length theory of ETG modes in PS/RS plasmas – PS-ETG mode – RS-ETG mode  * scan of the saturation amplitude in single-n simulations – Small  * PS-ETG modes give order of magnitude higher saturation level than RS-ETG and large  * PS-ETG modes Fixed local parameters R 0 /L te =6.9,  e =3.12 k   te ~0.3, a/R 0 =0.358  NL : eddy turn over time

9 9 ETG turbulence simulations in PS and RS tokamaks (Cyclone like parameters with a/  te ~8600)

10 10 Streamer formation in PS-ETG turbulence Linear phase (t v te /L n ~110) Saturation phase (t v te /L n ~208) – PS-ETG turbulence is dominated by streamers – Streamers are characterized by ballooning structure and  ~  * e Primary streamers (t v te /L n ~175) Secondary streamers (t v te /L n ~250) k   te ~ 0.27 k   te ~ 0.17  ~  * e weak field side  ~ 0 600  te  r

11 11 Extremely high  e in PS-ETG turbulence  e /(v te  te 2 /L te ) /v te R 0 /L te R 0 /L te ~6.9 R 0 /L te ~5.5 (R 0 /L te ) crit ~4.5 ~5  -1 zonal flows  e ~10  GB T e profile is strongly relaxed in a turbulent time scale ~5  -1

12 12 Zonal flow formation in RS-ETG turbulence Linear phase (t v te /L n ~110) Secondary mode (t v te /L n ~255) – RS-ETG turbulence show different behavior across q min – Zonal flows (streamers) appear in negative (positive) shear region Saturation phase (t v te /L n ~207) Zonal flow formation (t v te /L n ~380) q min k   te ~ 0.27 weak field side  ~ 0 600  te  r

13 13  e gap structure in RS-ETG turbulence  e /(v te  te 2 /L te ) /v te R 0 /L te (R 0 /L te ) crit ~3.7 q min zonal flows T e gradient is sustained above its critical value in quasi-steady state quasi-steady zonal flows  e suppression

14 14 Properties of zonal flows in k spectrum n-spectrum in NS region – ZF generation similar to slab GK simulation (Idomura 2000) Secondary mode is excited at k   te ~0.1 Quasi-steady ZF spectrum peaks at k r  te ~0.1 – Weak collisionless ZF damping for (k r  te ) 2 <<1 (Kim2003) – Microscopic ZF spectrum decay with (Jenko2002) k r spectrum of zonal flows |  n | negative shear side (r/a~0.48) zonal flows secondary mode k   te ~0.1 primary mode k   te ~0.27 zonal flow k r spectrum k r  te ~0.1

15 15Summary ETG turbulence is studied using global toroidal GK simulations Initial saturation levels consistent with the mixing length theory – Ballooning PS-ETG modes show Bohm like  * -scaling – Slab like RS-ETG modes show gyro-Bohm like  * -scaling – Small  * PS-ETG modes give order of magnitude higher saturation level than RS-ETG and large  * PS-ETG modes PS/RS ETG turbulences show different structure formations – PS-ETG turbulence is dominated by streamers T e profile is quickly relaxed by large  e ~10  GB – RS-ETG turbulence is characterized by zonal flows (streamers) in negative (positive) shear region T e profile is sustained by  e gap structure These results suggest a stiffness of T e profile in PS tokamaks, and a possibility of the T e transport barrier in RS tokamaks

Download ppt "1 Global Gyrokinetic Simulations of Toroidal ETG Mode in Reversed Shear Tokamaks Y. Idomura, S. Tokuda, and Y. Kishimoto Y. Idomura 1), S. Tokuda 1), and."

Similar presentations

Key Questions and Issues in turbulent Transport in Tokamaks JAEA M. Kikuchi 2 nd APTWG at Chengdu, Plenary session, presentation number PL-1 1PL-1 Acknowledgements:

Key Questions and Issues in turbulent Transport in Tokamaks JAEA M. Kikuchi 2 nd APTWG at Chengdu, Plenary session, presentation number PL-1 1PL-1 Acknowledgements:
Short wavelength ion temperature gradient driven instability in toroidal plasmas Zhe Gao, a) H. Sanuki, b) K. Itoh b) and J. Q. Dong c) a) Department of.

Short wavelength ion temperature gradient driven instability in toroidal plasmas Zhe Gao, a) H. Sanuki, b) K. Itoh b) and J. Q. Dong c) a) Department of.
A. Kirk, 20th IAEA Fusion Energy Conference, Vilamoura, Portugal, 2004 The structure of ELMS and the distribution of transient power loads in MAST Presented.

A. Kirk, 20th IAEA Fusion Energy Conference, Vilamoura, Portugal, 2004 The structure of ELMS and the distribution of transient power loads in MAST Presented.
Kinetic Theories of Geodesic Acoustic Modes in Toroidal Plasmas Zhiyong Qiu, F. Zonca and L. Chen IFTS, May 2010.

Kinetic Theories of Geodesic Acoustic Modes in Toroidal Plasmas Zhiyong Qiu, F. Zonca and L. Chen IFTS, May 2010.
INTRODUCTION OF WAVE-PARTICLE RESONANCE IN TOKAMAKS J.Q. Dong Southwestern Institute of Physics Chengdu, China International School on Plasma Turbulence.

INTRODUCTION OF WAVE-PARTICLE RESONANCE IN TOKAMAKS J.Q. Dong Southwestern Institute of Physics Chengdu, China International School on Plasma Turbulence.
Reduced transport regions in rotating tokamak plasmas Michael Barnes University of Oxford Culham Centre for Fusion Energy Michael Barnes University of.

Reduced transport regions in rotating tokamak plasmas Michael Barnes University of Oxford Culham Centre for Fusion Energy Michael Barnes University of.
Momentum transport and flow shear suppression of turbulence in tokamaks Michael Barnes University of Oxford Culham Centre for Fusion Energy Michael Barnes.

Momentum transport and flow shear suppression of turbulence in tokamaks Michael Barnes University of Oxford Culham Centre for Fusion Energy Michael Barnes.
Some results / ideas on the effect of flows D. Strintzi, C. Angioni, A. Bottino, A.G. Peeters.

Some results / ideas on the effect of flows D. Strintzi, C. Angioni, A. Bottino, A.G. Peeters.
The Stability of Internal Transport Barriers to MHD Ballooning Modes and Drift Waves: a Formalism for Low Magnetic Shear and for Velocity Shear The Stability.

The Stability of Internal Transport Barriers to MHD Ballooning Modes and Drift Waves: a Formalism for Low Magnetic Shear and for Velocity Shear The Stability.
GTC Status: Physics Capabilities & Recent Applications Y. Xiao for GTC team UC Irvine.

GTC Status: Physics Capabilities & Recent Applications Y. Xiao for GTC team UC Irvine.
Large-scale structures in gyrofluid ETG/ITG turbulence and ion/electron transport 20 th IAEA Fusion Energy Conference, Vilamoura, Portugal, 1 - 6 November.

Large-scale structures in gyrofluid ETG/ITG turbulence and ion/electron transport 20 th IAEA Fusion Energy Conference, Vilamoura, Portugal, November.
Intermittent Transport and Relaxation Oscillations of Nonlinear Reduced Models for Fusion Plasmas S. Hamaguchi, 1 K. Takeda, 2 A. Bierwage, 2 S. Tsurimaki,

Intermittent Transport and Relaxation Oscillations of Nonlinear Reduced Models for Fusion Plasmas S. Hamaguchi, 1 K. Takeda, 2 A. Bierwage, 2 S. Tsurimaki,
Turbulent transport in collisionless plasmas: eddy mixing or wave-particle decorrelation? Z. Lin Y. Nishimura, I. Holod, W. L. Zhang, Y. Xiao, L. Chen.

Turbulent transport in collisionless plasmas: eddy mixing or wave-particle decorrelation? Z. Lin Y. Nishimura, I. Holod, W. L. Zhang, Y. Xiao, L. Chen.
Chalmers University of Technology The L-H transition on EAST Jan Weiland and C.S. Liu Chalmers University of Technoloy and EURATOM_VR Association, S-41296.

Chalmers University of Technology The L-H transition on EAST Jan Weiland and C.S. Liu Chalmers University of Technoloy and EURATOM_VR Association, S
Parallel and Poloidal Sheared Flows close to Instability Threshold in the TJ-II Stellarator M. A. Pedrosa, C. Hidalgo, B. Gonçalves*, E. Ascasibar, T.

Parallel and Poloidal Sheared Flows close to Instability Threshold in the TJ-II Stellarator M. A. Pedrosa, C. Hidalgo, B. Gonçalves*, E. Ascasibar, T.
Joaquim Loizu P. Ricci, F. Halpern, S. Jolliet, A. Mosetto

Joaquim Loizu P. Ricci, F. Halpern, S. Jolliet, A. Mosetto
Kinetic Effects on the Linear and Nonlinear Stability Properties of Field- Reversed Configurations E. V. Belova PPPL 2003 APS DPP Meeting, October 2003.

Kinetic Effects on the Linear and Nonlinear Stability Properties of Field- Reversed Configurations E. V. Belova PPPL 2003 APS DPP Meeting, October 2003.
Calculations of Gyrokinetic Microturbulence and Transport for NSTX and C-MOD H-modes Martha Redi Princeton Plasma Physics Laboratory Transport Task Force.

Calculations of Gyrokinetic Microturbulence and Transport for NSTX and C-MOD H-modes Martha Redi Princeton Plasma Physics Laboratory Transport Task Force.
Particle-in-Cell Simulations of Electron Transport from Plasma Turbulence: Recent Progress in Gyrokinetic Particle Simulations of Turbulent Plasmas Z.

Particle-in-Cell Simulations of Electron Transport from Plasma Turbulence: Recent Progress in Gyrokinetic Particle Simulations of Turbulent Plasmas Z.
TH/7-2 Radial Localization of Alfven Eigenmodes and Zonal Field Generation Z. Lin University of California, Irvine Fusion Simulation Center, Peking University.

TH/7-2 Radial Localization of Alfven Eigenmodes and Zonal Field Generation Z. Lin University of California, Irvine Fusion Simulation Center, Peking University.

Similar presentations

Ads by Google