Jilei Hou , Jie Zhang , Kaibo Nan , Liqing Xu , Guizhong Zuo , Manni Jia , Haotian Qiu , Guangle Lin , Yifei Jin , Jia Huang , Kaixuan Ye , Yue Chen , Jiansheng Hu
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引用次数: 0
Abstract
Pellet injection is the most promising fueling method to achieve a deep particle deposition for future fusion reactors. On metal-wall EAST tokamak, a full density compensation has been achieved by the pellet fueling during ELM suppression with n = 4 RMP which will be used in ITER’s operation. During the pellet injection, ELM suppression is terminated and small ELMs reappear. The plasma stored energy does not have a reduction with the pellet injection. Meanwhile, large sawtooth accompanied with RMP application is modified by the pellet injection. The amplitude of sawtooth crash decreases and high frequency small sawtooth crashes appear during the pellet fueling. The concentration of heavy impurities in the plasma core, such as tungsten and molybdenum, has an obvious reduction with the ELM reappearance and sawtooth modification. Although the same ELM behaviors also appears after divertor gas fueling, pellet fueling can modify the core plasma more significantly. All these experimental results will provide a good support to the ITER operation in the future.
颗粒注入是未来聚变反应堆实现粒子深度沉积的最有前途的燃料注入方法。在金属壁 EAST 托卡马克上,ELM 抑制期间的颗粒燃料注入实现了全密度补偿,n = 4 RMP 将用于热核实验堆的运行。在注入颗粒期间,ELM 抑制终止,小 ELM 重新出现。等离子体的存储能量并没有随着颗粒的注入而减少。同时,伴随着 RMP 应用的大锯齿会因颗粒注入而改变。锯齿碰撞的振幅减小,在颗粒燃料注入过程中出现了高频率的小锯齿碰撞。随着 ELM 的再次出现和锯齿的改变,等离子体芯中的重杂质(如钨和钼)浓度明显降低。虽然分流器气体燃料燃烧后也会出现同样的 ELM 行为,但颗粒燃料燃烧对核心等离子体的改变更为明显。所有这些实验结果将为未来的热核实验堆运行提供良好的支持。
期刊介绍:
The open-access journal Nuclear Materials and Energy is devoted to the growing field of research for material application in the production of nuclear energy. Nuclear Materials and Energy publishes original research articles of up to 6 pages in length.
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