Enhanced constant extinction angle control for subsequent commutation failure in LCC-HVDC

IF 2 4区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

Iet Generation Transmission & Distribution Pub Date : 2025-01-12 DOI:10.1049/gtd2.13356

Hao Li, Xiaohua Li, Benjun Ge, Xiaoyu Sun

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Abstract

To mitigate subsequent commutation failure (SCF) in line-commutated converter-based high-voltage direct current transmission systems, the response and limitations of the control system are analysed. The results reveal that due to the prolonged negative deviation of the extinction angle during recovery, the integral output of the proportional–integral controller in constant extinction angle (CEA) significantly reduces the advanced firing angle order, even below normal operating angle. This directly leads to a delayed transition between control strategies and diminishes the effectiveness of CEA. Furthermore, the influence of fault severity, fault type, and AC system strength on SCF is examined. Based on these findings, an enhanced CEA control method to suppress SCF is proposed. By setting an expected firing angle and adaptively adjusting the integral parameter, the control strategy switching moment can be advanced, improving the CEA's control margin and enhancing capability. Moreover, introducing a notch filter reduces firing angle fluctuations and strengthens CEA's ability to suppress SCF. Finally, the theoretical analysis and the effectiveness of the proposed optimization method are validated.

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为缓解基于线路换流器的高压直流输电系统中的后续换向故障（SCF），对控制系统的响应和局限性进行了分析。结果表明，由于恢复期间灭弧角长期负偏差，恒定灭弧角 (CEA) 比例积分控制器的积分输出大大降低了高级点火角阶，甚至低于正常工作角。这直接导致了控制策略之间的延迟转换，降低了恒定消亡角（CEA）的有效性。此外，还研究了故障严重程度、故障类型和交流系统强度对 SCF 的影响。基于这些研究结果，提出了一种抑制 SCF 的增强型 CEA 控制方法。通过设置预期点火角和自适应调整积分参数，可以提高控制策略的切换时刻，从而改善 CEA 的控制裕度并增强其能力。此外，引入陷波滤波器可减少点火角波动，增强 CEA 抑制 SCF 的能力。最后，理论分析和提出的优化方法的有效性得到了验证。

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来源期刊

Iet Generation Transmission & Distribution 工程技术-工程：电子与电气

CiteScore

6.10

自引率

12.00%

发文量

301

审稿时长

5.4 months

期刊介绍： IET Generation, Transmission & Distribution is intended as a forum for the publication and discussion of current practice and future developments in electric power generation, transmission and distribution. Practical papers in which examples of good present practice can be described and disseminated are particularly sought. Papers of high technical merit relying on mathematical arguments and computation will be considered, but authors are asked to relegate, as far as possible, the details of analysis to an appendix. The scope of IET Generation, Transmission & Distribution includes the following: Design of transmission and distribution systems Operation and control of power generation Power system management, planning and economics Power system operation, protection and control Power system measurement and modelling Computer applications and computational intelligence in power flexible AC or DC transmission systems Special Issues. Current Call for papers: Next Generation of Synchrophasor-based Power System Monitoring, Operation and Control - https://digital-library.theiet.org/files/IET_GTD_CFP_NGSPSMOC.pdf