Operation of HL-2A tokamak

2011 IEEE/NPSS 24th Symposium on Fusion Engineering Pub Date : 2011-06-26 DOI:10.1109/SOFE.2011.6052199

X. Duan, Y. Huang, D.Q. Liu, W. Xuan, L.Y. Chen, J. Rao, X. Song, Z. Cao, B. Li, J.Y. Cao, G. Lei, X.D. Li, Yi Liu, Q.W. Yang, L. Yao, X. Ding, J. Dong, L.W. Yan, C. Pan, Y. Liu

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引用次数: 2

Abstract

The operation conditions have been improved via developing new technologies and improving the hardware on HL-2A tokamak in recent years. The ECRH system has been upgraded to 3 MW/68 GHz, the supersonic molecular beam injection (SMBI) fuelling technique has been developed further, and clusters can be formed in the SMB by cooling the gas to around liquid nitrogen temperature, so that deeper penetration can be achieved. Besides, there are about 30 kinds of diagnostics developed on HL-2A to measure the plasma parameters. These diagnostic systems include magnetics, microwave reflectometry, CXRS, Thomson scattering, FIR interferometer etc. Some of them were specially designed for the physics experiments. For example, a novel design of Langmuir probes was developed to study the 3-D structure of zonal flows. With these hardware development and improvement, new experimental results have been achieved in the fields of turbulence, transport, MHD instabilities and energetic particle dynamics. In particular, the ELMy H-mode has been achieved by combining the auxiliary heating of NBI and ECRH, SMBI is beneficial for the L-H transition and the H-mode operation on HL-2A, and suitable for studying particle transport and controlling the ELMs during H-mode discharges due to its deep and local injection features and good controllability. Besides, the three dimensional spectral structures of the low frequency zonal flow and quasi-mode, which were predicted by theory and simulation, have been observed simultaneously. The beta-induced Alfvén eigenmodes (BAEs), excited by large magnetic islands (m-BAE) and by energetic electrons (e-BAE), are investigated, these phenomena are under further study.

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HL-2A托卡马克的运行

近年来，通过对HL-2A托卡马克的新技术开发和硬件改进，改善了托卡马克的运行条件。ECRH系统升级到3mw /68 GHz，进一步发展了超声速分子束注入(SMBI)加注技术，通过将气体冷却到液氮温度附近，可以在SMB中形成团簇，从而实现更深的穿透。此外，在HL-2A上开发了约30种用于测量等离子体参数的诊断方法。这些诊断系统包括磁学、微波反射、CXRS、汤姆逊散射、FIR干涉仪等。有些是专门为物理实验设计的。例如，开发了一种新型的Langmuir探针来研究带状流动的三维结构。随着这些硬件的发展和改进，在湍流、输运、MHD不稳定性和高能粒子动力学等领域取得了新的实验成果。其中，通过结合NBI和ECRH的辅助加热实现了ELMy的h模式，SMBI有利于HL-2A上的L-H跃迁和h模式操作，由于其深层和局部注入的特点以及良好的可控性，适合研究h模式放电过程中elm的粒子输运和控制。同时观测到理论和模拟预测的低频纬向流和准模态的三维谱结构。研究了由大磁岛(m-BAE)和高能电子(e-BAE)激发的β诱导的alfv本征模(BAEs)，这些现象还有待进一步研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2011 IEEE/NPSS 24th Symposium on Fusion Engineering

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