计及换流站控制响应的多端混合直流线路后备保护设计

李海锋<sup>1</sup>; 许灿雄<sup>1</sup>; 赖江宇<sup>1</sup>; 梁远升<sup>2</sup>; 王 钢<sup>1</sup>

引用本文:	李海锋,许灿雄,赖江宇,梁远升,王钢.计及换流站控制响应的多端混合直流线路后备保护设计[J].电力系统保护与控制,2023,51(3):155-163.[点击复制]
	LI Haifeng,XU Canxiong,LIANG Yuansheng,LAI Jiangyu,WANG Gang.Backup protection design for multi-terminal hybrid HVDC lines considering control response[J].Power System Protection and Control,2023,51(3):155-163[点击复制]

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计及换流站控制响应的多端混合直流线路后备保护设计
李海锋¹,许灿雄¹,赖江宇¹,梁远升²,王钢¹
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(1.华南理工大学电力学院，广东广州 510641;2.广东电网公司广州供电局，广东广州 510620)

摘要:

多端混合直流系统故障暂态过程受直流控制响应的影响较大，针对其线路故障特征的分析和保护原理的研究，应当充分计及直流控制特性的影响。为此，根据多端混合直流系统的特点，计及故障后不同换流站的控制响应过程，对其直流线路故障暂态电流的变化趋势关系进行研究分析。并基于此提出了基于滑窗均值电流的多端混合直流线路区内、区外故障识别判据，给出了具体的保护方案。通过PSCAD/EMTDC对所提保护方案的可行性进行了仿真验证。仿真结果表明，所提方案能够可靠识别包含T接汇流母线在内的各种直流线路故障，天然具有故障选极能力，耐受故障过渡电阻能力和抗噪声干扰能力强，且无需数据同步，可作为多端混合直流线路的快速后备保护。

关键词: 多端混合直流系统控制响应故障暂态电流故障识别快速后备保护

DOI：10.19783/j.cnki.pspc.220565

投稿时间：2022-04-19修订日期：2022-07-04

基金项目:国家自然科学基金项目资助(52077082)；广东省基础与应用基础研究面上项目资助(2022A1515010906)

Backup protection design for multi-terminal hybrid HVDC lines considering control response

LI Haifeng¹,XU Canxiong¹,LIANG Yuansheng¹,LAI Jiangyu²,WANG Gang¹

(1. School of Electric Power Engineering, South China University of Technology, Guangzhou 510641, China; 2. Guangzhou Power Supply Bureau, Guangdong Power Grid Co., Ltd., Guangzhou 510620, China)

Abstract:

The fault transient process of a multi-terminal hybrid HVDC system is affected greatly by DC control response. The impact of DC control characteristics should be taken into consideration in the analysis of line fault features and research on the protection principle. Based on the characteristics of this type of HVDC system and the control response of different converter stations, the variation tendency relationship between fault transient currents after a DC line fault occurs is studied and analyzed. Then the fault identification criterion based on the sliding mean currents to identify the DC characteristics of internal and external line fault is proposed, and a specific protection scheme is presented. The validity of the proposed protection scheme is verified by PSCAD/EMTDC simulation. The results show that the proposed scheme can quickly and correctly identify line faults including on the T-junction DC bus. It can be implemented with superior performance for a fault transition resitance and with noise interference. Synchronous data is not needed. With fault pole selection capability, the proposed scheme qualifies as fast backup protection for multi-terminal hybrid HVDC transmission lines. This paper is supported by the National Natural Science Foundation of China (No. 52077082).

Key words: multi-terminal hybrid HVDC system control response fault transient current fault identification fast backup protection

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