H.A. Claaßen scite author profile

The equation describing the radial transport of toroidal momentum in a collisional subsonic plasma with steep gradients has been obtained via a systematic expansion of the two-fluid equations. The diffusion rate is classical; the poloidal rotation, driven by the temperature gradient, generates, in turn, a toroidal flow gradient, also in Ohmic discharges. Moreover, important modifications of the parallel momentum equation are found to arise if ⌳ 1 ϵ(i /⍀ i)(q 2 R 2 /rL T) is уO(1/3); the poloidal rotation velocity is then no longer unique but obeys a cubic equation which may allow for bifurcated equilibria under certain conditions. The toroidal velocities predicted for Ohmic discharges compare well with those measured in PLT ͓Princeton Large Torus; S. Suckewer et al., Nucl. Fusion 21, 1301 ͑1981͔͒; the relevance of the extended equation providing the poloidal rotation velocity to selected experimental edge plasmas is discussed.

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Controlled Fusion and Plasma Physics (Report on the 11th European Conference, Aachen, 1983)

Claaßen¹,

Conrads²,

Fuchs³

et al. 1984

Nucl. Fusion

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The 11th European Conference on Controlled Fusion and Plasma Physics was held from 5 to 9 September 1983 in the Kármán Auditorium of the University of Aachen, FRG. The Conference, organized by the Nuclear Research Centre Jülich, was attended by nearly 500 participants from over 30 countries, among them guest delegations from several non-European countries. The scientific material was presented in 24 invited papers, 36 short oral contributions, and about 250 posters spread over five poster sessions.The present review is necessarily limited and cannot give proper credit to each work presented at the Conference. According to the Conference programme, this report is divided into ten sections with emphasis on magnetic confinement and related problems and topics.

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Numerical modelling of pump limiter biasing on TEXTOR-94 and Tore Supra

et al. 2002

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The two-dimensional multifluid code TECXY has been used to model the biasing (with respect to the first wall) of the toroidal belt limiter ALT-II on the tokamak TEXTOR-94 and of the new toroidal pump limiter being installed on Tore Supra tokamak in the framework of the CIEL project. It is well known that the edge flow pattern can be influenced by the poloidal electric drifts from imposing radial electric fields. The modelling with TECXY introduces imprinted bias currents in the scrape-off layer (SOL) for the case of negative (limiter) biasing, and imprinted bias potentials for the case of positive biasing. This allowed us to simulate sufficiently well the experimental I -V characteristics for either biasing of ALT-II and also reproduced the essential features and trends of the observed plasma profiles in the SOL of TEXTOR-94. For negative biasing a moderate improvement of the pumping exhaust efficiency can be achieved in the case of TEXTOR. For Tore Supra, however, only a negligible improvement of the limiter performance with biasing can be predicted, which is explained by the relatively weak drift flows in Tore Supra.

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Influence of impurity radiation losses on plasma edge properties in TEXTOR

Samm

Bogen

Claaßen

et al. 1990

Journal of Nuclear Materials

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Transport studies of high-Zelements in neon edge radiation cooled discharges in TEXTOR-94

Rapp

Tokar

Könen

et al. 1997

Plasma Phys. Control. Fusion

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High-Z materials as tungsten are intended to be used in future fusion reactors due to their low sputtering rates and high melting points. In this context the important question is whether the use of high-Z materials is compatible with the concept of a cold radiative boundary. To investigate the local release and transport behaviour of the high-Z impurities, Mo and W test limiters were used in auxiliary heated discharges under different radiation scenarios with neon seeding. In addition, laser blow-off of tungsten as well as xenon gas puffing were performed. In some particular discharge conditions impurity accumulation was observed in the plasma core, which in the case of ohmic discharges led to minor disruptions. The connection between the accumulation and the evolution of the current density profiles is discussed. A transport analysis is made, in order to compare the observations with the neoclassical theory. It is shown that with neon the impurity-impurity driven fluxes enhance the high-Z concentration in the plasma core. However, if the source of the high-Z elements is significantly reduced, by increasing the plasma density, a development of an accumulation instability can be avoided.

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H.A. Claaßen

Neoclassical theory of rotation and electric field in high collisionality plasmas with steep gradients

Controlled Fusion and Plasma Physics (Report on the 11th European Conference, Aachen, 1983)

Numerical modelling of pump limiter biasing on TEXTOR-94 and Tore Supra

Influence of impurity radiation losses on plasma edge properties in TEXTOR

Transport studies of high-Zelements in neon edge radiation cooled discharges in TEXTOR-94

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