80 MVA脉冲机组超同步调速装置控制技术仿真

陈晨; 彭建飞; 王海兵; 卜明南

doi:doi:10.11884/hplpb201931.180301

强激光与粒子束, 2019, 31 (4): 040013, 网络出版: 2019-04-28

80 MVA脉冲机组超同步调速装置控制技术仿真

Simulation research on super-synchronization speed control technology of 80 MVA motor generator

论文大纲

陈晨彭建飞王海兵卜明南

作者单位

核工业西南物理研究院, 成都 610041

交交变频数字矢量控制超同步脉冲机组 rotor cycloconverter digital vector control super-synchronous pulsed generators

摘要

介绍了中国环流器二号A(HL-2A)装置80 MVA脉冲发电机组超同步调速装置的基本组成, 其模拟控制系统需要数字化改造。基于异步电动机转子交交变频电路, 以矢量控制算法为核心, 结合电压前馈和断续补偿等理论, 对超同步调速装置的控制技术进行了理论分析, 并建立了PSIM仿真模型, 仿真结果显示, 该控制算法能很好实现对机组转速、拖动电机转子电流频率和幅值的有效控制, 实现机组超同步调速, 为机组超同步调速装置控制系统的数字化改造提供了重要参考。

Abstract

The super-synchronization speed control assemblies (SSSCAs) of two 80 MVA motor generators ( MGs ) in HL-2A Tokamak are introduced basically. The analog control system of each SSSCA will be digitalized. In this paper, basing on rotor cycloconverter circuit, the main control technology of the SSSCAs including vector control, voltage feedforward control and discontinuous-current compensation are analyzed. The simulation models of the SSSCA with control technology have been built by power simulation (PSIM) . The simulation result shows that the control system models with these control algorithms can control the MG speed, the amplitude and frequency of the motor rotor current well to realize super synchronous speed regulation of the MG. The control algorithms can be used as an important reference for digitalizing the control system of the SSSCA.

参考文献

[1] Wang Y L, Wang Y Q, Mao X H. Simulation of ohmic heating power supply for HL-2M［J］. IEEE Trans on Plas Sci, 2014, 42(10): 3197-3201.

[2] 宣伟民, 姚列英, 李华俊, 等. HL-2A装置供电系统［J］. 核聚变与等离子体物理, 2005,25(4): 9-13.(Xuan Weimin, Yao Lieying, Li Huajun, et al.The HL-2A tokamak power supply.Nuclear Fusion and Plasma Physics, 2005: 25(4): 9-13)

[3] 王海兵, 彭建飞, 宣伟民, 等. 300 MVA脉冲发电机定子铁心磁化试验［J］. 核聚变与等离子体物理, 2016, 36(4): 334-337.(Wang Haibing, Peng Jianfei, Xuan Weiming, et al. Magnetizing test for stator core of 300 MVA pulse generator. Nuclear Fusion and Plasma Physics, 2016, 36(4): 334-337)

[4] 李华俊, 杜沧, 宣伟民, 等. 2500 kW双馈电机超同步调速装置研制［J］. 核聚变与等离子体物理, 2007, 9(1): 34-38.(Li Huajun, Du Cang, Xuan Weimin, et al. Development of super-synchronization speed control assembly for 2500 kW double-fed motor. Nuclear Fusion and Plasma Physics, 2007, 9(1): 34-38)

[5] 彭建飞, 宣伟民, 王海兵. HL-2A装置大功率电动飞轮脉冲发电机组启动过程分析和建模［C］//中国核学会2011年学术年会论文.2011: 12-18.(Peng Jianfei, Xuan Weimin, Wang Haibing. Analysis and simulation for startup process of pulsed motor generators in HL-2A//Proceedings of the 2011 Annual Conference of China Nuclear Society. 2011: 12-18)

[6] 李华俊, 宣伟民, 彭建飞, 等. 两套80 MVA机组超同步双馈调速装置的研制［J］. 电气自动化, 2007,29(3): 26-28.(Li Huajun, Xuan Weimin, Peng Jianfei, et al. Development of super-synchronization double fed speed control assemblies for two sets 80 MVA motor generator. Electrical Automation, 2007,29(3): 26-28)

[7] 马小亮. 大功率交-交变频调速及矢量控制技术［M］.北京: 机械工业出版社, 1996.(Ma Xiaoliang. High power AC/AC variable frequency speed regulation and vector control technology, Beijing: China Machine Press, 1996)

[8] Li H J, Du C, Xuan W M, et al. Application of super-synchronization speed control technology in two 80 MVA motor-generator units of HL-2A［J］. Plasma Science and Technology, 2007, 9(2): 231-234.

[9] 刘洋, 史黎明, 赵鲁, 等. 一种基于混合型磁链观测器的异步电机直接转矩控制［J］. 电工技术学报, 2015, 30(10): 157-163.(Liu Yang, Shi Liming, Zhao Lu, et al. Transactions of China Electrotechnical Society, 2015, 30(10): 157-163)

[10] 杨淑英, 靳丁龙, 张兴, 等. 基于磁链观测器的异步电机转矩闭环控制［J］. 太阳能学报, 2016, 37(1): 190-194.(Yang Shuying, Jin Dinglong, Zhang Xing, et al. Closed-loop control of induction machine torque based on flux linkage observer. Acta Energiae Solaris Sinica, 2016, 37(1): 190-194)

陈晨, 彭建飞, 王海兵, 卜明南. 80 MVA脉冲机组超同步调速装置控制技术仿真[J]. 强激光与粒子束, 2019, 31(4): 040013. Chen Chen, Peng Jianfei, Wang Haibing, Bu Mingnan. Simulation research on super-synchronization speed control technology of 80 MVA motor generator[J]. High Power Laser and Particle Beams, 2019, 31(4): 040013.

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