G. Partesotti , F. Reimold , G.A. Wurden , B.J. Peterson , D. Zhang , K. Mukai , the W7-X team
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引用次数: 0
摘要
辐射冷却是磁约束聚变等离子体的主要散热途径之一。在仿星器中,由于辐射的三维分布,使动力排气控制变得复杂。利用高斯过程层析成像(Gaussian Process Tomography)方法,从一个极向截面的线积分辐射热计数据重构了Wendelstein 7-X的二维辐射分布。这些实验层析图被映射到新安装的分流辐射计摄像机的视场,并与环形分离的局部测量结果进行比较,以评估环形辐射分布。我们观察到等离子体辐射功率密度在分流区和陡峭的环形梯度处达到峰值,特别是在低辐射功率部分(沿~ 2m长通量管的发射率增加到×8)。这些结果表明在仿星器半模内存在显著的环形辐射不对称性。
Assessing the toroidal radiation distribution at Wendelstein 7-X by combining Gaussian Process Tomography and field line mapping
Radiative cooling is one of the main heat dissipation channels for magnetically confined fusion plasmas. In stellarators power exhaust control is complicated by the three-dimensional radiation distribution. Using a Gaussian Process Tomography routine, the two-dimensional radiation distribution in Wendelstein 7-X is reconstructed from the line-integrated bolometer data of one poloidal cross-section. These experimental tomograms are mapped to the field of view of the newly installed divertor bolometer cameras and compared to the toroidally separated local measurements to assess the toroidal radiation distribution. We observe peaking of the plasma radiated power density in the divertor region and steep toroidal gradients, especially at low radiated power fraction (up to increase in the emissivity along a m long flux tube). These results suggest the presence of significant toroidal radiation asymmetries within a stellarator half-module.
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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