par Kalupin, Denis;Tokar, Mikhail;Unterberg, Bernhard;Loozen, X.;Pilipenko, Denis ;Zagorski, Roman
Référence Plasma physics and controlled fusion, 48, 5 A, page (A309-A317)
Publication Publié, 2006-05
Référence Plasma physics and controlled fusion, 48, 5 A, page (A309-A317)
Publication Publié, 2006-05
Article révisé par les pairs
Résumé : | The difference in the H-mode power threshold in divertor and limiter configurations is numerically investigated by analysing the effect of boundary conditions imposed on the last closed magnetic surface (LCMS) and given by prescribed density and temperature e-folding lengths, δn and δT, respectively. It is demonstrated that the variation of δn and δT significantly affects the H-mode power threshold. This is explained by the change in the balance between conductive and convective heat losses at the edge. For the ratio δn/δT large enough, when the convective loss does not exceed 45% of the total power, the threshold agrees well with the experimental multi-machine scaling for divertor tokamaks. With reduction in δn/δT and increase in convective loss above this critical level, the power threshold significantly exceeds the scaling, in agreement with observations on different limiter tokamaks. By considering the power and particle balances in the scrape-off layer it is shown that the ratio δn/δT is controlled by the distance which recycling neutrals pass before entering the confined plasma and which is normally much larger in divertor machines than in the limiter ones. The calculations for the limiter tokamak TEXTOR have predicted the experimentally found conditions for the L-H transition in advance. © 2006 IOP Publishing Ltd. |