Siying Chen, Yingbiao Li, Shun Li, Cong Fu, Yixing Chen, Lu Miao, Bo Bao
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引用次数: 0
摘要
提出了一种基于模块化多电平变流器(MMC)的、通过高压直流输电与大容量电力系统相连的并网控制风电场集成新策略,以解决传统的受端短路故障时不可控的直流过电压问题。然而,故障排除后又出现了新的直流过电压现象,风电场与送端、受端多电平换流器之间的相互作用使得直流过电压机理更加复杂;进一步的探索表明,在新的集成策略下,送端故障恢复阶段会出现直流过电压。因此,分析了新直流过电压的演变过程和机理。结果发现,受风电场和多联机之间相互作用的影响,多联机 PI 控制器中积分器的交替饱和是主要原因。基于这一认识,我们提出了额外的控制措施,以抑制故障恢复阶段的直流过电压。利用 MATLAB/Simulink 进行了模拟测试,结果验证了所提方法在抑制直流过电压方面的功效。
DC overvoltage suppression method of wind farm connected via MMC-HVDC system
A new integration strategy of grid-forming-controlled wind farms connected to the bulk power systems through high-voltage direct current transmission based on the modular multi-level converter (MMC) is proposed to solve the problem of traditional uncontrollable DC overvoltage during the short circuit faults at the receiving end. However, a new DC overvoltage phenomenon appears after the fault is cleared, and the interaction between the wind farm and sending- and receiving-end MMCs makes the DC overvoltage mechanism more complex; further exploration shows that DC overvoltage during the sending-end fault recovery stage occurs under the new integration strategy. Therefore, the evolution process and mechanism of the new DC overvoltage are analysed. It is found that affected by the interaction between wind farms and MMCs, the alternate saturation of the integrators in the PI controller of MMCs is the main cause. Based on this understanding, additional controls are proposed to suppress this DC overvoltage during the fault recovery stage. Simulations are carried out on a test with MATLAB/Simulink, and the results verify the efficacy of the proposed methods in suppressing DC overvoltage.