基于布伦特迭代算法的构网型变流器频率支撑需求动态评估OA
Dynamic Evaluation of Frequency Support Requirements for Grid-Forming Converters Based on the Brent Iteration Algorithm
[目的]为提升变流器高占比系统频率稳定性,探讨了构网型(grid-forming,GFM)变流器频率支撑需求的动态评估与量化方法.[方法]首先,建立耦合GFM变流器功-频特性的多机系统频率响应模型;其次,综合考虑预想扰动下频率变化速率(rate of change of frequency,RoCoF)与最大暂态频率偏差双重约束条件,构建了GFM变流器频率支撑需求评估方法;最后,基于布伦特迭代算法实现不同运行工况下GFM变流器虚拟惯量与一次调频增益临界阈值的动态评估.基于改进的IEEE-39节点系统,开展了多场景算例测试.[结果]结果表明,GFM变流器的引入可将频率最低点提高至49.5 Hz,显著提升系统稳定性,证明了高比例电力电子化系统中配置GFM变流器的必要性.进一步对比3种算法性能,所提迭代方法平均迭代次数仅为11次,较传统方法减少20%以上,验证了所提评估方法和迭代算法的有效性.[结论]所提评估方法从系统层面明确了电网对GFM变流器频率支撑能力的需求,可为GFM变流器的优化配置与参数整定提供理论基础.
[Objective]To enhance frequency stability in systems with a high penetration of converters,this paper investigates a dynamic evaluation and quantification method for determining the frequency support requirements of grid-forming(GFM)converters.[Methods]First,a multi-machine system frequency response model is developed by incorporating the power–frequency characteristics of coupled GFM converters.Second,considering both the rate of change of frequency(RoCoF)and the maximum transient frequency deviation under anticipated disturbances,a comprehensive assessment method is constructed to evaluate the frequency support requirements of GFM converters.Finally,based on the Brent iterative algorithm,the critical thresholds of virtual inertia and primary frequency regulation gain for GFM converters are dynamically assessed under various operating conditions.Based on the modified IEEE-39 bus system,multiple scenario-based case studies were conducted.[Results]The results show that the introduction of GFM converters can raise the minimum system frequency to 49.5 Hz,significantly enhancing system stability and highlighting the necessity of deploying GFM converters in highly power-electronic systems.Furthermore,a performance comparison of three algorithms demonstrates that the proposed iterative method requires only 11 iterations on average,reducing the iteration count by over 20%compared to traditional approaches,thereby validating the effectiveness of the proposed assessment method and iterative algorithm.[Conclusions]The proposed assessment method clarifies,from a system-level perspective,the frequency support requirements imposed by the grid on GFM converters,providing a theoretical foundation for their optimal allocation and parameter tuning.
杨凯璇;王学斌;宋锐;索心语;傅国斌;王澧森;文云峰
国网青海省电力公司电力科学研究院,西宁市 810000国网青海省电力公司电力科学研究院,西宁市 810000国网青海省电力公司电力科学研究院,西宁市 810000湖南大学电气与信息工程学院,长沙市 410082国网青海省电力公司电力科学研究院,西宁市 810000湖南大学电气与信息工程学院,长沙市 410082湖南大学电气与信息工程学院,长沙市 410082
信息技术与安全科学
构网型变流器频率支撑需求评估布伦特迭代算法
grid-formingconverterfrequency supportrequirement evaluationBrent iterative algorithm
《电力建设》 2026 (1)
25-36,12
国家自然科学基金项目(52077066)国网青海省电力公司科技项目(522807240005) This work is supported by the National Natural Science Foundation of China(No.52077066)and the Science and Technology Project of State Grid Qinghai Electric Power Company(No.522807240005).
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