新能源基地经LCC-HVDC送出系统动态交互机制及暂态过电压风险评估

黄劼睿<sup>1</sup>; 刘昕宇<sup>1</sup>; 高熠莹<sup>2</sup>; 胡殿刚<sup>3</sup>; 马喜平<sup>4</sup>; 辛焕海<sup>1</sup>

引用本文:	黄劼睿,刘昕宇,高熠莹,等.新能源基地经LCC-HVDC送出系统动态交互机制及暂态过电压风险评估[J].电力系统保护与控制,2025,53(12):139-151.[点击复制]
	HUANG Jierui,LIU Xinyu,GAO Yiying,et al.Dynamic interaction mechanism and transient overvoltage risk assessment of renewable energy base connected via LCC-HVDC transmission system[J].Power System Protection and Control,2025,53(12):139-151[点击复制]

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新能源基地经LCC-HVDC送出系统动态交互机制及暂态过电压风险评估
黄劼睿¹,刘昕宇¹,高熠莹²,胡殿刚³,马喜平⁴,辛焕海¹
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(1.浙江大学电气工程学院，浙江杭州 310027;2.中国电力科学研究院，北京 100192;3.国网甘肃省电力公司，甘肃兰州 730050;4.国网甘肃省电力公司电力科学研究院，甘肃兰州 730070)

摘要:

针对新能源经LCC-HVDC外送系统直流换相失败下的送端系统暂态过电压问题，提出了一种送端系统暂态过电压风险评估方法。首先，分析了换相失败下新能源和直流系统间的动态交互作用机制，研究了该交互作用下送端系统电压幅值的暂态变化规律。其次，提出了计及直流线路动态、多控制环节耦合作用的暂态过电压评估方法。之后，提出了量化送端系统暂态过电压安全边界的临界短路比，实现了暂态过电压风险评估，并分析了交直流系统耦合作用对暂态过电压评估的影响。最后，通过在PSCAD内搭建的新能源经LCC-HVDC外送系统仿真模型，验证了暂态过电压风险评估方法的准确性与有效性。

关键词: LCC-HVDC 换相失败动态交互机制暂态过电压电网强度

DOI：10.19783/j.cnki.pspc.241137

投稿时间：2024-09-11修订日期：2025-01-10

基金项目:国家电网公司总部科技项目资助(5100- 202355810A-3-8-KJ)

Dynamic interaction mechanism and transient overvoltage risk assessment of renewable energy base connected via LCC-HVDC transmission system

HUANG Jierui¹,LIU Xinyu¹,GAO Yiying²,HU Diangang³,MA Xiping⁴,XIN Huanhai¹

(1. College of Electrical Engineering, Zhejiang University, Hangzhou 310027, China; 2. China Electric Power Research Institute, Beijing 100192, China; 3. State Grid Gansu Electric Power Company, Lanzhou 730050, China; 4. State Grid Gansu Electric Power Research Institution, Lanzhou 730070, China)

Abstract:

Aiming at the transient overvoltage at the sending end system caused by commutation failure in LCC-HVDC transmission systems for renewable energy integration, a risk assessment method for transient overvoltage at the sending end is proposed. First, the dynamic interaction mechanism between the renewable energy and DC transmission system under commutation failure is analyzed, and the transient voltage amplitude variation characteristics at the sending end under such interaction are studied. Then, a transient overvoltage assessment method considering the coupling effect of DC line dynamics and multi-control links is proposed. Furthermore, a critical short circuit ratio is introduced to quantify the transient overvoltage safety margin at the sending end, enabling the risk assessment of the transient overvoltage and analyzing the influence of the coupling effect of the AC-DC system on the transient overvoltage assessment. Finally, using a PSCAD simulation model of a renewable energy transmission system using LCC-HVDC, the accuracy and effectiveness of the transient overvoltage risk assessment method are verified.

Key words: LCC-HVDC commutation failure dynamic interaction mechanism transient overvoltage grid strength

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