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电动汽车驱动
★ 5.0
考虑短路比要求的多直流输电系统同步调相机配置
Synchronous Condenser Placement for Multiple HVDC Power Systems Considering Short-Circuit Ratio Requirements
| 作者 | Jiaxin Wang · Jiawei Zhang · Qingchun Hou · Ning Zhang |
| 期刊 | IEEE Transactions on Power Systems |
| 出版日期 | 2024年5月 |
| 技术分类 | 电动汽车驱动 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 高压直流输电 短路比 同步调相机 特征值不等式约束 混合整数线性规划 |
语言:
中文摘要
高压直流输电(HVDC)接入会降低系统的短路比(SCR)和电网强度,可能导致电压稳定性问题,尤其在高比例可再生能源系统中更为显著。同步调相机(SynCon)是提升SCR的有效手段。然而,由于SCR约束为非线性特征值不等式组,难以直接求解。本文基于广义谱分解提出瑞利割方法,将特征值不等式约束等价转化为线性约束,构建了求解SCR约束下SynCon选址定容问题的混合整数线性规划模型。理论分析了方法的收敛性、复杂度与误差,并通过与其他七种模型的数值对比验证了所提模型在解的质量和计算效率方面的优越性。
English Abstract
High voltage direct current (HVDC) power injections decrease power systems' short-circuit ratio (SCR) and the grid strength. They may cause voltage stability problems, especially in systems with a high share of renewable. The synchronous condenser (SynCon) is a promising solution for increasing the SCR. However, planning SynCons to meet the SCR requirements is challenging since the SCR requirement is a set of nonlinear eigenvalue inequality constraints that are not friendly to solvers. Based on generalized spectral decomposition, this paper proposes a Rayleigh cut method to equivalently transform eigenvalue inequality constraints into a set of linear constraints. Then, a mixed-integer linear programming model is built to solve the SCR-constrained SynCon placement problem. The proposed approach's convergence, complexity, and error analysis are all analyzed theoretically. Also, numerical comparisons with the other seven models suggest the proposed model is effective and efficient, outperforming the other models in terms of solution quality and computation time.
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SunView 深度解读
该同步调相机优化配置技术对阳光电源构网型储能系统具有重要参考价值。在高比例新能源接入场景下,阳光电源PowerTitan储能系统可通过GFM构网型控制模拟同步调相机功能,提供短路容量支撑。文中基于广义谱分解的瑞利割线性化方法,可直接应用于ST系列储能变流器的选址定容优化,解决多直流馈入系统的SCR约束问题。该混合整数线性规划模型能指导储能系统在弱电网场景下的容量配置与虚拟同步机VSG参数整定,提升电网电压稳定性,为阳光电源在特高压直流送端/受端的储能项目规划提供理论支撑,增强系统级解决方案竞争力。