Transport Code Study of Electron Cyclotron Heating in Tokamaks PDF Download
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Author: T. Shimozuma
Publisher:
ISBN:
Category :
Languages : en
Pages : 23
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Author: T. Shimozuma
Publisher:
ISBN:
Category :
Languages : en
Pages : 23
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Author: Nicholas Deliyanakis
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Category : Electron cyclotron resonance sources
Languages : en
Pages : 498
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Author: Nicholas Deliyanaksi
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Category :
Languages : en
Pages : 0
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Author:
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Category :
Languages : en
Pages : 4
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The Compact Ignition Tokamak (CIT) operating scenario is envisaged to consist of a start-up phase in which the toroidal magnetic field (B{sub T}), plasma current (I{sub P}) and central electron density (n{sub e}(0)) are simultaneously ramped, followed by a burn cycle and a ramp down cycle. Electron cyclotron radio-frequency (ECRF) power at fixed frequency is ideally suited to heating during the ramp up phase of CIT. The angle of injection of the incident microwave beam can be varied as the toroidal field is ramped, so as to maintain central rf-power deposition. Furthermore, since the EC wave is a propagating mode in vacuum, relatively high power densities can be easily coupled into a compact device. Finally, we note that recent advances in source technology makes ECR heating at (280--310) GHz a viable option. In order to realistically simulate this ramp up scenario, a combined code has been developed in which ECRF ray tracing and absorption, and MHD equilibrium calculation, and thermal and particle transport are treated self-consistently. Previous studies of electron cyclotron resonance heating in CIT were carried out using model profiles of rf absorption based on stand-alone ray tracing and absorption calculations. In addition, these studies held the plasma current, toroidal magnetic field, and density constant in time. In the present work, a time variation in these plasma quantities is imposed and ECRF power deposition is re-calculated during rf injection so as to more realistically and self-consistently simulate ECH-assisted start-up in CIT. The most recent CIT configuration calls for a toroidal field ramp to 11T. Thus, the present studies consider the use of an ECRF source frequency of 308 GHz, with EC waves launched in the ordinary mode of polarization.
Author:
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Category : Power resources
Languages : en
Pages : 782
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Author:
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ISBN:
Category :
Languages : en
Pages : 30
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The response of plasma parameters and broad wavenumber turbulence (1--40 cm−1, k[rho]{sub s} = 0.1--8) to auxiliary electron cyclotron heating (ECH) is reported on. In these plasmas the electron temperature responds most strongly to the ECH while the electron density and ion temperature are kept approximately constant. Thermal fluxes and diffusivities increase appreciably with ECH for both electron and ion channels. Significant changes to the density fluctuations over the full range of measured wavenumbers are observed. This range of wavenumbers encompasses that typically associated with ion temperature gradient, trapped electron mode, and electron temperature gradient modes. Changes in linear growth rates calculated using a gyrokinetic code show consistency with observed fluctuation increases over the whole range of wavenumbers.
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Category :
Languages : en
Pages : 17
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We report results of electron cyclotron heating (ECH) experiments in which 80-kW of microwave power from a 35-GHz gyrotron is injected into a tokamak with large single pass absorption. For 10-ms microwave pulses, incident from the high field side of the torus, the central electron temperature increases from 850 eV to 1250 eV, in agreement with empirical transport code calculations. For the first time in a tokamak, we demonstrate that electron temperature scales linearly with ECH power. (Author).
Author: Egbert Westerhof
Publisher:
ISBN:
Category :
Languages : en
Pages : 35
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Author: Miklos Porkolab
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ISBN:
Category :
Languages : en
Pages : 4
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Author:
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Category : Controlled fusion
Languages : en
Pages : 88
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