Quasilinear transport modelling at low magnetic shear
Author | |
Abstract |
Accurate and computationally inexpensive transport models are vital for routine and robust predictions of tokamak turbulent transport. To this end, the QuaLiKiz [Bourdelle et al., 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. (C) 2012 American Institute of Physics. |
Year of Publication |
2012
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Journal |
Physics of Plasmas
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Volume |
19
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Number |
6
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Number of Pages |
062305
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Date Published |
Jun
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Type of Article |
Article
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ISBN Number |
1070-664X
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DOI |
10.1063/1.4719697
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PId |
79b0621193d64d70ed8b09d2bf00f7ca
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Alternate Journal |
Phys. Plasmas
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Label |
OA
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Attachment | |
Journal Article
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