F. Waelbroeck scite author profile

A self-consistent transport code is used to evaluate how plasma confinement in tokamaks is influenced by the microturbulent fields excited by the dissipative trapped electron (DTE) instability. As shown previously, the saturation theory on which the code is based has been developed from first principles. The numerical results reproduce well the Neo-Alcator scaling law observed experimentally (for example in TEXTOR) in non-detached Ohmic discharges, the confinement degradation resulting when auxiliary heating is applied and a large number of other experimental observations. The potential impact of the toroidal ion temperature gradient (fy) mode on energy confinement is assessed by estimating the ion thermal flux with the help of the mixing length approximation. The temperature and density profiles measured in TEXTOR (q a = 2.45) are compared at either variable mean density or variable additional power, and their stability against DTE and 7j ; modes is checked; in the latter case, a new criterion is used, which is valid for arbitrary curvature. All profiles examined are marginally unstable for the two modes, essentially between the q = l and q=2 magnetic surfaces. The code results and the stability analysis lead to the following conclusions and suggestions: (1) The DTE instability is sufficient to explain the anomalous heat transport in low density discharges (attached plasmas) with or without additional heating; the marginal instability for the DTE mode thus follows from heat flux constraints. (2) The observed marginal instability against the JJ ; mode must then follow from particle flux constraints. (3) The condition that both y m and y DTE (y = growth rate) must be small is the restriction which determines the profiles that correspond to the experimental conditions and which determines, to a large extent, profile consistency. (4) Finally, it is suggested that the deviation from Neo-Alcator scaling, the density limit and the phenomenon of plasma detachment are interrelated effects which arise at high densities, when the constraint on the electron heat flux becomes harder to satisfy.

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KINETICS OF THE PRODUCTION OF C₂ DURING THE PYROLYSIS OF ETHYLENE

Tsang¹,

Bauer²,

Waelbroeck³

1962

J. Phys. Chem.

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The rate of production of CZ in the lowest vibrational level of the X,3nU state has been measured via absorption spectrometry at A5165 (0,O Swan band) in back reflected shocks propagated in 8% CBH4-92% Ar. The temperature range covered was 2600-X600°K., with shock densities one-third to two atm., NTI'. The initial rate was found to be of the first order 111 the ethylenc concentration; the rate constant has an activation energy of 50 kcal. Those data can be explained by assuming that the ethylene MXS drcomposed to acctylene and hydrogen by the incident shock, either in whole or in part, depending on the shock strength. The acetylene thus generated thrn was converted to a large variety of C/H fragments by deconiposition, abstractions, polymerization, rt c. One of thr products of this complex chain was C2. A steady-state concentration of CZ was reached, which was essentially a t equilibrium with various C/H species (excluding solid carbon), prior to the appearance of a continuum absorption. l'hc lltttcr presumably was due to high molecular weight conjugiltrd ring or ckiain polymers.

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Hydrogen solubilisation into and permeation through wall materials

Waelbroeck

Ali-Khan

Dietz

et al. 1979

Journal of Nuclear Materials

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F. Waelbroeck

Boronization in textor

The rate of hydrogen release out of clean metallic surfaces

Transport through dissipative trapped electron mode and toroidal ion temperature gradient mode in TEXTOR

KINETICS OF THE PRODUCTION OF C₂ DURING THE PYROLYSIS OF ETHYLENE

Hydrogen solubilisation into and permeation through wall materials

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F. Waelbroeck

Boronization in textor

The rate of hydrogen release out of clean metallic surfaces

Transport through dissipative trapped electron mode and toroidal ion temperature gradient mode in TEXTOR

KINETICS OF THE PRODUCTION OF C2 DURING THE PYROLYSIS OF ETHYLENE

Hydrogen solubilisation into and permeation through wall materials

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Product

Resources

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KINETICS OF THE PRODUCTION OF C₂ DURING THE PYROLYSIS OF ETHYLENE