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O. Sauter Effects of plasma shaping on MHD and electron heat conductivity; impact on alpha electron heating O. Sauter for the TCV team Ecole Polytechnique.

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Presentation on theme: "O. Sauter Effects of plasma shaping on MHD and electron heat conductivity; impact on alpha electron heating O. Sauter for the TCV team Ecole Polytechnique."— Presentation transcript:

1 O. Sauter Effects of plasma shaping on MHD and electron heat conductivity; impact on alpha electron heating O. Sauter for the TCV team Ecole Polytechnique Fédérale de Lausanne (EPFL) Centre de Recherches en Physiques des Plasmas (CRPP) Lausanne, Switzerland

2 O. Sauter Outline Introduction Elongation and triangularity on internal kink Shape effects on ELMs Triangularity effects on transport Negative triangularity for DEMO?

3 O. Sauter Introduction This is a short and rapid survey of some published TCV results related to the effects of plasma shape Studies on sawteeth => effects of shape on internal kink / core MHD stability Studies on ELMs => effects of shape on edge stability Studies on transport => effects of shape on micro-stab. Full list of references given at end of the talk

4 O. Sauter Reminder:  N limit and elongation Troyon limit: IpIp  N *I p  q 95 =2 TCV design:  N decreases for  >2.5 before q 95 =2 TCV results:  N does decreases for  >2.2 before q 95 =2 A. Turnbull et al, Nucl. Fus. 28 (1988) 1381 F. Hofmann et al, PRL 81 (1998) 2918

5 O. Sauter Sawteeth and plasma shape  and  do not penetrate so much into plasma center yet, large effects of shape on sawteeth Reimerdes et al, PPCF 42 (2000) 629: Effect of triangular and elongated plasma shape on the sawtooth stability Same shape dependence: Mercier, ideal internal kink, sawtooth period

6 O. Sauter Ideal Internal Kink Mode Analytical expression used [Graves PPCF (2005), Martynov PPCF (2005)]:

7 O. Sauter Sawteeth «disappear» at high elongation Can avoid sawteeth by: Full stabilization (lengthen sawtooth period -> ∞) Full destabilization (shorten ST period -> 0) Reimerdes et al, PPCF 48 (2006) 1621: Sawtooth behaviour in highly elongated TCV plasmas

8 O. Sauter «continuous sawteeth» = nonlinear sat. MHD 3D displacement of nonlinar saturated MHD can be predicted helical core of «hybrid» type plasmas ~ new 3D equilibrium Graves et al, PPCF 55 (2013) 014005: Magnetohydrodynamic helical structures in nominally axisymmetric low-shear tokamak plasmas

9 O. Sauter n=1 growth rate well known from ideal MHD  and  ST have same dependence on  Best fits of  (n=1) do not need  in the formulas  decreases rapidly towards center at high  => main effect of  on internal kink through effective value of  1 Martynov et al, PPCF 47 (2005) 1743: The stability of the ideal internal kink mode in realistic tokamak geometry At high , small shear:

10 O. Sauter ELMs at negative  Significant effect of  on ELM frequency observed in TCV ohmic H-modes Pochelon et al, PFR 7 (2012) 2502148: Recent TCV Results – Innovative Plasma Shaping to Improve Plasma Properties and Insight

11 O. Sauter ELMs at negative  : main effect on high n No «2 nd stability» effects More unstable Smaller ELMs Medvedev et al, NF (2015): Negative triangularity tokamak: stability limits and perspectives as fusion energy system

12 O. Sauter Transport: better e - confinement at negative  Camenen et al, NF 47 (2007) 510: Impact of plasma triangularity and collisionality on electron heat transport in TCV L-mode plasmas Same profiles at half the power ! Factor 2 confinement improvement

13 O. Sauter Transport: better e - confinement at negative  Camenen et al, NF 47 (2007) 510: Impact of plasma triangularity and collisionality on electron heat transport in TCV L-mode plasmas

14 O. Sauter Nonlinear gyrokinetic simulations at  <0 Marinoni et al, NF 51 (2009) 055016: The effect of plasma triangularity on turbulent transport: modeling TCV experiments by linear and non-linear gyrokinetic simulations Ratio of  e between positive over negative  can be explained outside  =0.7 Clear difference in the core

15 O. Sauter On core stiffness and edge non-stiffness Sauter et al, PoP 21 (2014) 055906: On the non-stiffness of edge transport in L-mode tokamak plasmas Linear with  v in edge region Gradient increasing with Ip (P, n el, …) Can better relate with gyrokinetic simulations Can better extract main parameters’ variations From data From educated fit

16 O. Sauter Role of edge for  effects on transport Sauter et al, PoP 21 (2014) 055906: On the non-stiffness of edge transport in L-mode tokamak plasmas Same input power with positive and negative  with good radial resolution Almost whole profile self-similar…except edge (next VG)

17 O. Sauter Role of edge for  effects on transport Sauter et al, PoP 21 (2014) 055906: On the non-stiffness of edge transport in L-mode tokamak plasmas T e (  v =0.8) increases with negative  because of increased gradient in edge region 0.8-1.0 Consistent with previous simulations (Marinoni et al)

18 O. Sauter Role of  revisited with gyrokinetic Merlo et al, PPCF (2015): Investigating profile stiffness and critical gradients in shaped TCV using local gyrokinetic simulations of turbulent transport No change in core  <0 better at outer radii Less stiff near edge Linear critical gradients seem to play a role Need global runs Flux tube GENE

19 O. Sauter Ion transport also stiff even in ohmic Merle et al, IAEA (2014) T i versus I p scan. Same R/L Ti across radii and I p, scales with n el Ti(0.8) increases with Ip similar to Te. Same with P EC scan Thus with strong electron heating, expect same behaviour Expect same behaviour with shaping as Te

20 O. Sauter Negative delta, an option for DEMO Kikuchi et al, 1 st International e-Conference on Energies (2014) Design with heat flux handling as main priority (instead of core transport/stability) Large gain with «R» for divertor, large gain for pumping Potential gain from controlled ELMs, transport

21 O. Sauter Turnbull et al NF 28 (1988) 1379, Current and beta limitations for the TCV tokamak Hofmann et al, PRL 81 (1998) 2918, Exp. and Theor. Stab. Limits of High  Tokamak Plasmas Reimerdes et al, PPCF 42 (2000) 629: Effect of triangular and elongated plasma shape on the ST stability Graves et al PPCF 47 (2005) B121, Sawtooth control in fusion plasmas Martynov et al, PPCF 47 (2005) 1743: stability of the ideal internal kink in realistic tokamak geometry Reimerdes et al, PPCF 48 (2006) 1621: Sawtooth behaviour in highly elongated TCV plasmas Graves et al, PPCF 55 (2013) 014005: Magnetohydrodynamic helical structures in nominally axisymmetric low-shear tokamak plasmas Camenen et al, NF 47 (2007) 510: Impact of plasma triangularity and collisionality on electron heat transport in TCV L-mode plasmas Marinoni et al, NF 51 (2009) 055016: The effect of plasma triangularity on turbulent transport: modeling TCV experiments by linear and non-linear gyrokinetic simulations Pochelon et al, PFR 7 (2012) 2502148: Recent TCV Results – Innovative Plasma Shaping to Improve Plasma Properties and Insight Sauter et al, PoP 21 (2014) 055906: On the non-stiffness of edge transport in L-mode tokamak plasmas Merle et al, IAEA (2014), EX/P3-55, From Edge Non-Stiffness to Improved IN-Mode: a New Perspective on Global Tokamak Radial Transport Merlo et al, PPCF (2015) May: Investigating profile stiffness and critical gradients in shaped TCV using local gyrokinetic simulations of turbulent transport Medvedev et al, NF (2015): Negative triangularity tokamak: stability limits and perspectives as fusion energy system Kikuchi et al, 1st International e-Conference on Energies (2014) References

22 O. Sauter Back-up

23 O. Sauter Role of edge for  effects on transport Sauter et al, PoP 21 (2014) 055906: On the non-stiffness of edge transport in L-mode tokamak plasmas T e and n e edge gradient increase with I p, P, n el,  <0

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