The physical study of FEB divertor is presented.
描述FEB偏滤器的物理设计研究。
MPT-X is a tokamak with a 4-node poloidal divertor.
是带4个内导体坏的托卡马克装置。
Experiments show that helium ash can be removed by a pump limiter or divertor.
实验表明,通过抽气孔栏和偏滤器可以排除聚变堆中的氦灰。
The thermal cycling test of divertor target plate was carried out in the vacuum;
在真空室中用大功率电子束作为热源进行了热疲劳试验。
The simulation results play an important role in the design of divertor and first wall of Tokamak.
模拟计算的结果对托卡马克偏滤器和第一壁的设计有重要意义。
It consists of the main pumping system, pumping divertor and glow discharge cleaning (GDC) system.
它由真空主抽气系统、抽气偏滤器、直流辉光放电清洗系统组成。
The pumping divertor initially realizes the pumping and control of edge particles in tokamak discharge.
抽气偏滤器初步实现了托卡马克放电过程中边缘粒子的抽运与控制;
The simulation result shows the plasma parameter distributions in the edge layer, especially near the first wall and the divertor target plate.
模拟结果显示边界层区域等离子体参数的分布特性,尤其能显示第一壁和偏滤器靶板附近等离子体参量的分布特性。
An adoptable divertor structure and its cooling manner are designed with optimal parameters for HL-2A divertor according to its primary modification scheme.
根据HL - 2 A装置改造的初步方案,选择优化的偏滤器位形所决定的参数,设计出可采取的偏滤器结构及水冷方式。
The simulation results can show plasma parameter distribution characteristics in the area of edge layer, especially the characteristics near the first wall and divertor target plate.
模拟结果能显示边界层区域等离子体参数的分布特性,尤其能显示第一壁和偏滤器靶板附近等离子体参量的分布特性。
The simulation results can show plasma parameter distribution characteristics in the area of edge layer, especially the characteristics near the first wall and divertor target plate.
模拟结果能显示边界层区域等离子体参数的分布特性,尤其能显示第一壁和偏滤器靶板附近等离子体参量的分布特性。
应用推荐