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HL-2A主机改造的初步方案 被引量:8

Schemes for the HL-2A tokamak modification
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摘要 为进一步提高HL-2A装置的放电参数和优化等离子体位形,给出了三种可能的主机改造途径:保留真空室,去掉并调整真空室内部分多极场线圈的局部改造方案;保留真空室,重新布局极向场线圈的中等规模改造方案;重新设计真空室和极向场线圈系统的大规模改造方案。对三种改造方案对放电参数和位形的影响和改造工程的可行性进行了分析比较,重新设计真空室和极向场线圈系统的大规模改造方案是最佳选择。 Three schemes for HL-2A tokamak modification have been proposed to increase plasma parameters and obtain optimal plasma configuration. They are a local modification of adjusting the poloidal coils in vacuum vessel with remaining of vacuum vessel, a middle scale modification of rearranging poloidal coils with remaining of vacuum vessel and an enormous one of redesigning vacuum vessel and poloidal coils. Three schemes have been analyzed and compared, and the third one is optimal.
作者 刘德权 张锦华 李芳著 李强 严龙文 潘宇东 冉红 李广生 刘永
机构地区 核工业西南物理研究院
出处 《核聚变与等离子体物理》 EI CAS CSCD 北大核心 2006年第4期257-262,共6页 Nuclear Fusion and Plasma Physics
关键词 HL-2A主机 等离子体位形 改造方案 HL-2A main engine Plasma configuration Modification scheme
分类号 TL631.24 [核科学技术—核技术及应用]
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参考文献4

  • 1The ASDEX Group. Divertor tokamak ASDEX [R]. Ⅱ P Ⅲ/47. November, 1978.
  • 2Liu Dequan, Zhou Caipin, Cao Zeng, et al. Construction of the HL-2A tokamak [J]. Fusion Engineering and Design, 2003, 66-68:147-151.
  • 3Liu Dequan, Liu Yong, Yan Jianchen, et al. Commissioning and preliminary operation of HL-2A tokamak [J].Fusion Engineering and Design, 2005, 74:167-170.
  • 4Schneider U, the ASDEX Team. Ten year of operating experience with ASDEX [A]. Proceedings of the 17th Symposium on Fusion Technology, Vol.1. [C]. Rome,Italy, September, 1992. 742-746.

同被引文献31

  • 1Raffale Albanese,Giuseppe Ambrosino. Current, position, and shape control of tokamak plasamas [A]. A Literature Review [C]. Proceedings of the 2000 IEEE International Conference on Control Applications [C]. Anchorage, Alaska, USA, 2000.
  • 2Lister J B, Sharma A, Limebeer D J N. Plasma equilibrium response modeling and validation on JT-60U [J]. Nucl. Fusion, 2002, 42: 708-724.
  • 3Albanese R, Villone E The linearized CREATE-L plasma response model for the control of current, position and shape in tokamaks [J]. Nucl. Fusion, 1998, 38:723-738.
  • 4Walker M L, Humphreys D A, Leuer J A, et al. Implementation of model-based multivariable control on DIII-D [J]. Fusion Engineering and Design, 2001, 56-57: 727-731.
  • 5Atul S, Sharma, David, Limebeer J N, et al. Modeling and control of TCV [J]. IEEE transactions on control systems technology, 2005, 3: 356-369.
  • 6Lao L L, John H St, Stambaugh R D, et al. Reconstruction of current profile parameters and plasma shapes in tokamaks [J]. Nucl. Fusion, 1985, 25: 1611-1622.
  • 7Song Xianming, Jiang Chao, Li Qiang, et al. HL-2A control system and its discharge management [J]. Fusion Engineering and Design, 2003, 66/68: 815.
  • 8Penaflor B G, Ferron J R, Johnson R D, et al. Current status of the upgraded DⅢ-D real-time digital plasma control system [J]. Fusion Engineering and Design, 2004, 71: 47.
  • 9Yonekawa I, Kawamata Y, Totsuka T, et al. Current status and future prospects of the JT-60U control system [J]. Fusion Engineering and Design, 2004, 71:11.
  • 10FERRON J R, WALKER M L, LAO L L, et al. Real time equilibrium reconstruction for tokamak discharge control [J]. Nucl. Fusion, 1998, 38(7): 1055.

引证文献8

二级引证文献22

核聚变与等离子体物理
2006年 第4期

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