Real-time Voltage Stability Assessment for Receiving-end Grids With Renewable Energy and LCC-HVDC Integration

PENG Long; XU Shiyun; SHAN Yunjing; YANG Jinyu; ZHAO Bing

doi:10.13334/j.0258-8013.pcsee.241597

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Real-time Voltage Stability Assessment for Receiving-end Grids With Renewable Energy and LCC-HVDC Integration

更新时间：2026-01-04

- Real-time Voltage Stability Assessment for Receiving-end Grids With Renewable Energy and LCC-HVDC Integration
- Issue 22, Pages: 8807-8818(2025)
- 作者机构：
  
  电网安全与节能国家重点实验室(中国电力科学研究院有限公司), 北京市海淀区,100192
- 作者简介：
- 基金信息：
- DOI：10.13334/j.0258-8013.pcsee.241597
  CLC：
- Published：2025
- 稿件说明：
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PENG Long, XU Shiyun, SHAN Yunjing, et al. Real-time Voltage Stability Assessment for Receiving-end Grids With Renewable Energy and LCC-HVDC Integration[J]. 2025, (22): 8807-8818.
DOI：

PENG Long, XU Shiyun, SHAN Yunjing, et al. Real-time Voltage Stability Assessment for Receiving-end Grids With Renewable Energy and LCC-HVDC Integration[J]. 2025, (22): 8807-8818. DOI： 10.13334/j.0258-8013.pcsee.241597.

摘要

该文分析了常规直流和新能源接入对受端电网暂态电压失稳特性的影响，提出一种基于量测的暂态电压稳定实时判据。首先，基于电压动态响应的分区特性，采用聚合模型表征受端电网的平均电压响应特性，并提炼出负荷主导电压失稳的关键电气特征，提出“有功下降-无功上升”失稳判据；其次，结合直流的等值阻抗，基于戴维南等值分析直流功率变化对负荷电压稳定性的影响，并引入直流功率监测判据，以解决直流慢恢复导致的电压失稳误判问题；此外，研究新能源在低电压条件下的有功与无功功率变化特性，进一步提出兼顾新能源特性的暂态电压失稳判据；最后，在实际交直流受端电网的仿真验证中，与功率电流法和电压积分法相比，所提方法在不同工况下均能准确判别电压失稳。

Abstract

This paper analyzes the impact of conventional DC and renewable energy integration on transient voltage instability characteristics in receiving-end power grids and proposes a measurement-based real-time transient voltage stability criterion. First

based on the partitioning characteristics of voltage dynamic responses

an aggregate model is used to represent the average voltage response of the receiving-end grid. Key electrical characteristics of load-dominated voltage instability are extracted

leading to the proposal of an "active power decline-reactive power rise" instability criterion. Second

by incorporating the equivalent impedance of DC systems

Thévenin equivalence is used to analyze the impact of different DC power levels on load voltage stability. DC power monitoring is introduced to address misjudgments caused by the slow recovery of DC systems. Furthermore

the characteristics of active and reactive power variations in renewable energy sources under low-voltage conditions are examined

and an improved transient voltage instability criterion is proposed considering renewable energy integration. Finally

simulation results from a practical AC-DC receiving-end power grid demonstrate that

compared with the power-current method and voltage integration method

the proposed approach accurately identifies voltage instability under various operating conditions.

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