摘要
The main efforts of HT-7 superconducting tokamak are directed to quasi-steady state discharges and relevant physics. Significant progress has been realized in obtaining high-performance discharges under a quasi-steady state in HT-7. The long pulse discharges have been obtained with duration up to more than one minute. Wall recycling has been studied in the long duration discharges in HT-7. The recycling coefficient R of each plasma increases with time. The uncontrolled density increase is accompanied by hydrogen and the impurity influx originating mainly from the limiter surface and the parts of the inner vessel. The edge recycling after boronization will also be discussed in this paper.
The main efforts of HT-7 superconducting tokamak are directed to quasi-steady state discharges and relevant physics. Significant progress has been realized in obtaining high-performance discharges under a quasi-steady state in HT-7. The long pulse discharges have been obtained with duration up to more than one minute. Wall recycling has been studied in the long duration discharges in HT-7. The recycling coefficient R of each plasma increases with time. The uncontrolled density increase is accompanied by hydrogen and the impurity influx originating mainly from the limiter surface and the parts of the inner vessel. The edge recycling after boronization will also be discussed in this paper.
基金
The project supported by the Meg-science Engineering Project of the Chinese Academy of Sciences
