论文信息 - Operational limits during high power long pulses with radiofrequency heating in Tore Supra - 字舞流文

Operational limits during high power long pulses with radiofrequency heating in Tore Supra

Issues related to the limitations and optimization of long pulse operation at high radiofrequency (RF) power levels in the Tore Supra tokamak are presented. An increasing operational limitation was encountered during the experimental campaigns in 2006?2007, affecting the high power and long pulse performance. This limitation was characterized by the sudden appearance of a multifaceted asymmetric radiation from the edge (MARFE), often followed by a disruption. The analyses revealed that the limitation could be linked to over-heating and flaking of the carbon re-deposition layers on the main plasma facing components (PFCs). The carbon deposits on all PFCs were therefore completely removed during the winter shutdown 2007?2008. Following this, a remarkable improvement in the injected power capability was observed, resulting in almost 12?MW of injected power during 10?s, without any of the previous signs of limitation (MARFE, disruption).Furthermore, the RF antennas are subject to localized heat loads due to RF sheath effects and interaction by fast particles, effects which need to be minimized in particular for long pulse operation. Experimental results concerning the heat load on the antennas, caused by fast ion losses in the presence of magnetic ripple, are presented in this paper.

R. Mitteau | Sylvain Brémond | David Douai | Frederic Imbeaux | F. Saint-Laurent | F. Kazarian | F. G. Rimini | G. Lombard | G. Giruzzi | L. Millon | Annika Ekedahl | Jérôme Bucalossi | V. Basiuk | Laurent Colas | Marc Goniche | E. Tsitrone | Suk-Ho Hong | E. Delchambre | Yann Corre | L. Manenc | P. Monier-Garbet | J. L. Schwob | F. Imbeaux | G. Giruzzi | V. Basiuk | J. Bucalossi | F. Saint-Laurent | F. Rimini | L. Colas | R. Dumont | B. Pégourié | M. Goniche | P. Moreau | Y. Corre | E. Tsitrone | A. Ekedahl | D. Douai | Suk-Ho Hong | P. Monier-Garbet | R. Mitteau | G. Dunand | G. Lombard | F. Kazarian | S. Bremond | F. Samaille | O. Meyer | R. Dumont | L. Millon | G. Dunand | O. Meyer | B. Pégourié | Ph. Moreau | Franck Samaille | L. Manenc | E. Delchambre | J. Schwob

[1] A. Becoulet,et al. Tore Supra steady-state power and particle injection: the ‘CIMES’ project , 2001 .

[2] P. Hertout,et al. Overview of the deuterium inventory campaign in Tore Supra: Operational conditions and particle balance , 2009 .

[3] T. Loarer,et al. Long pulse operation with actively cooled limiters , 1997 .

[4] Y. Ikeda,et al. Ripple enhanced banana drift loss at the outboard wall during ICRF/NBI heating in JT-60 U , 1996 .

[5] Jet Efda Contributors,et al. Understanding the spatial structure of RF-induced SOL modifications , 2007 .

[6] J. B. Lister,et al. A lower hybrid current drive system for ITER , 2009 .

[7] T. J. Martin,et al. Measurement and interpretation of interaction of MeV energy protons with lower hybrid waves in JET plasmas , 1999 .

[8] M. Goniche,et al. Thermal behavior of the LHCD launchers in Tore Supra , 2007 .

[9] Suk-Ho Hong,et al. Investigation of temporal evolution and spatial distribution of dust creation events in DITS campaign using visible CCD cameras in Tore Supra , 2009 .

[10] M. Shoji,et al. ICRF long-pulse discharge and interaction with a chamber wall and antennas in LHD , 2007 .

[11] A. Becoulet,et al. Recent fully non-inductive operation results in Tore Supra with 6?min, 1?GJ plasma discharges , 2004 .

[12] V. Basiuk,et al. Ripple losses during ICRF heating in Tore Supra , 2004 .

[13] B. Pégourié,et al. Impurity production monitoring during RF experiments in Tore Supra , 2009 .

[14] Evidence for Regions of Nearly Suppressed Velocity Space Diffusion Caused by Finite Larmor Radius Effects during ICRF Heating , 1999 .

[15] V. Basiuk,et al. Modelling of ripple losses in tokamak plasmas heated by ICRF waves , 2001 .

[16] R. Mitteau,et al. Analysis of radiative disruptions in RF-heated Tore Supra plasmas using infrared imaging , 2009 .

[17] V. Basiuk,et al. RF Coupling and Antenna Heat Load Control for Combined LHCD and ICRH in Tore Supra , 2007 .

[18] R. Mitteau,et al. A Possible Method of Carbon Deposit Mapping on Plasma Facing Components Using Infrared Thermography , 2020, ArXiv.

[19] R. Mitteau,et al. RF heating optimization on Tore Supra using feedback control of infrared measurements , 2007 .

[20] E. Joffrin,et al. Thermal and non-thermal particle interaction with the LHCD launchers in Tore Supra , 2007 .

[21] Interaction of lower hybrid waves with fast ions in JET , 1994 .

[22] M. Greenwald. Density limits in toroidal plasmas , 2002 .

[23] J. Roth,et al. Deuterium inventory in Tore Supra: reconciling particle balance and post-mortem analysis , 2009 .

[24] J. Jacquinot,et al. Steady-state operation of tokamaks: key experiments, integrated modelling and technology developments on Tore Supra , 2005 .