交流输电线路的能量存储机制及其参与电力系统动态过程的角色OA
Energy Storage Mechanism of AC Transmission Line and Its Role in Dynamic Process of Power Systems
交流输电线路作为电力系统的重要组成部分,对系统振荡的能量交换过程具有关键影响,尤其是在当前新能源发电设备内电势动态的时间尺度与输电线路动态水平相当的普遍场景下,交流输电线路动态特性将深度参与系统振荡的能量交换过程.因此,探究交流输电线路的能量存储机制及其参与系统振荡能量交换过程的基本方式对厘清系统振荡的物理机制具有重要的奠基意义.然而,现有研究大多聚焦于基于电压、电流瞬时值或谐波间关系的交流输电线路数学表征,缺乏对线路如何参与系统振荡能量交换过程的物理认识,相应的新能源电力系统振荡机理仍不明确.以典型变换器并网交流系统为例,首先阐明了系统电能平稳传输目标要求下交流输电线路的基本运行原理,接着建立了表征交流输电线路动态的解析关系,进而分析了交流输电线路的动态特征及能量存储内涵,最后深入剖析了系统闭环动态的能量交换行为,深化了对交流输电线路参与系统动态过程内在方式的理解,为揭示当前系统振荡的能量交换一般机理奠定了重要的认知基础.
As a crucial component of power systems,AC transmission lines play a pivotal role in the energy exchange process during system oscillations,especially in prevalent scenarios where the time-scale dynamics of internal potentials in new energy generation equipment are comparable to those of transmission lines.Under such conditions,the dynamic characteristics of AC transmission lines will profoundly participate in the energy exchange process of system oscillations.Therefore,investigating the energy storage mechanism of AC transmission lines and their fundamental modes of involvement in the energy exchange of system oscillations hold foundational significance for clarifying the physical mechanisms behind these oscillations.However,existing researches have predominantly focused on mathematical characterizations of AC transmission lines based on instantaneous voltage and current values or harmonic relationships,lacking a physical understanding of how transmission lines participate in the energy exchange process of system oscillations.Consequently,the oscillation mechanisms in new energy power systems remain unclear.Firstly,a typical converter-interfaced AC system is taken as an example,the basic operational principles of AC transmission lines is elucidated under the objective of stable power transmission.Secondly,the analytical relationships characterizing the dynamics of AC transmission lines is established.Thirdly,their dynamic characteristics and energy storage implications are analyzed.Finally,a detailed examina-tion of the energy exchange behavior in closed-loop system dynamics is conducted,deepening the understanding of how AC transmis-sion lines intrinsically participate in system dynamic processes and laying a vital cognitive foundation for revealing the general energy exchange mechanisms underlying current system oscillations.
徐秋朦;王思成;袁小明
强电磁技术全国重点实验室(华中科技大学),武汉 430074||华中科技大学电气与电子工程学院,武汉 430074强电磁技术全国重点实验室(华中科技大学),武汉 430074||华中科技大学电气与电子工程学院,武汉 430074强电磁技术全国重点实验室(华中科技大学),武汉 430074||华中科技大学电气与电子工程学院,武汉 430074
信息技术与安全科学
交流网络输电线路系统振荡能量交换动态分析
AC networktransmission linessystem oscillationsenergy exchangedynamic analysis
《南方电网技术》 2026 (4)
50-64,15
国家自然科学基金资助项目(U23B6008)台达电力电子科教发展计划资助项目(DREN2024001). Supported by the National Natural Science Foundation of China(U23B6008)the Delta Power Electronics Science and Education Development Program(DREN2024001).
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