Quasilinear transport modelling at low magnetic shear

J. Citrin; C. Bourdelle; P. Cottier; D. F. Escande; Ö D. Gürcan; D. R. Hatch; G. M.D. Hogeweij; F. Jenko; M. J. Pueschel

doi:10.1063/1.4719697

Quasilinear transport modelling at low magnetic shear

J. Citrin
, C. Bourdelle
, P. Cottier
, D. F. Escande
, Ö D. Gürcan
, D. R. Hatch
, G. M.D. Hogeweij
, F. Jenko
, M. J. Pueschel

Research output: Contribution to journal › Article › peer-review

Abstract

Accurate and computationally inexpensive transport models are vital for routine and robust predictions of tokamak turbulent transport. To this end, the QuaLiKiz Bourdelle, Phys. Plasmas 14, 112501 (2007) quasilinear gyrokinetic transport model has been recently developed. QuaLiKiz flux predictions have been validated by non-linear simulations over a wide range in parameter space. However, a discrepancy is found at low magnetic shear, where the quasilinear fluxes are significantly larger than the non-linear predictions. This discrepancy is found to stem from two distinct sources: the turbulence correlation length in the mixing length rule and an increase in the ratio between the quasilinear and non-linear transport weights, correlated with increased non-linear frequency broadening. Significantly closer agreement between the quasilinear and non-linear predictions is achieved through the development of an improved mixing length rule, whose assumptions are validated by non-linear simulations.

Original language	English
Article number	062305
Journal	Physics of Plasmas
Volume	19
Issue number	6
DOIs	https://doi.org/10.1063/1.4719697
Publication status	Published - 1 Jun 2012

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title = "Quasilinear transport modelling at low magnetic shear",

abstract = "Accurate and computationally inexpensive transport models are vital for routine and robust predictions of tokamak turbulent transport. To this end, the QuaLiKiz Bourdelle, Phys. Plasmas 14, 112501 (2007) quasilinear gyrokinetic transport model has been recently developed. QuaLiKiz flux predictions have been validated by non-linear simulations over a wide range in parameter space. However, a discrepancy is found at low magnetic shear, where the quasilinear fluxes are significantly larger than the non-linear predictions. This discrepancy is found to stem from two distinct sources: the turbulence correlation length in the mixing length rule and an increase in the ratio between the quasilinear and non-linear transport weights, correlated with increased non-linear frequency broadening. Significantly closer agreement between the quasilinear and non-linear predictions is achieved through the development of an improved mixing length rule, whose assumptions are validated by non-linear simulations.",

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year = "2012",

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doi = "10.1063/1.4719697",

language = "English",

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TY - JOUR

T1 - Quasilinear transport modelling at low magnetic shear

AU - Citrin, J.

AU - Bourdelle, C.

AU - Cottier, P.

AU - Escande, D. F.

AU - Gürcan, Ö D.

AU - Hatch, D. R.

AU - Hogeweij, G. M.D.

AU - Jenko, F.

AU - Pueschel, M. J.

PY - 2012/6/1

Y1 - 2012/6/1

N2 - Accurate and computationally inexpensive transport models are vital for routine and robust predictions of tokamak turbulent transport. To this end, the QuaLiKiz Bourdelle, Phys. Plasmas 14, 112501 (2007) quasilinear gyrokinetic transport model has been recently developed. QuaLiKiz flux predictions have been validated by non-linear simulations over a wide range in parameter space. However, a discrepancy is found at low magnetic shear, where the quasilinear fluxes are significantly larger than the non-linear predictions. This discrepancy is found to stem from two distinct sources: the turbulence correlation length in the mixing length rule and an increase in the ratio between the quasilinear and non-linear transport weights, correlated with increased non-linear frequency broadening. Significantly closer agreement between the quasilinear and non-linear predictions is achieved through the development of an improved mixing length rule, whose assumptions are validated by non-linear simulations.

AB - Accurate and computationally inexpensive transport models are vital for routine and robust predictions of tokamak turbulent transport. To this end, the QuaLiKiz Bourdelle, Phys. Plasmas 14, 112501 (2007) quasilinear gyrokinetic transport model has been recently developed. QuaLiKiz flux predictions have been validated by non-linear simulations over a wide range in parameter space. However, a discrepancy is found at low magnetic shear, where the quasilinear fluxes are significantly larger than the non-linear predictions. This discrepancy is found to stem from two distinct sources: the turbulence correlation length in the mixing length rule and an increase in the ratio between the quasilinear and non-linear transport weights, correlated with increased non-linear frequency broadening. Significantly closer agreement between the quasilinear and non-linear predictions is achieved through the development of an improved mixing length rule, whose assumptions are validated by non-linear simulations.

U2 - 10.1063/1.4719697

DO - 10.1063/1.4719697

M3 - Article

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SN - 1070-664X

VL - 19

JO - Physics of Plasmas

JF - Physics of Plasmas

IS - 6

M1 - 062305

ER -

Quasilinear transport modelling at low magnetic shear

Abstract

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