故障下直驱风机频率变化特性及其影响因素分析OA
Analysis of Frequency Variation Characteristics and Influencing Factors of PMSG Under Fault Conditions
由于同步机具有很大的旋转惯性,故障导致的频率变化很小,而新能源旋转惯性较小,故障可能导致较大的频率变化,故障下频率的较大变化势必导致现有继电保护特性发生变化,现有文献鲜有针对故障情况下直驱风机频率变化特性的研究.针对这一问题,首先基于直驱风机单机无穷大系统,考虑网侧逆变器控制策略,推导分析了线路故障时电压、电流的相位变化特性,从而揭示了直驱风机频率变化的机理.然后,进一步考虑锁相环导致的锁相差对直驱风机频率响应特性的影响.最后,结合仿真分析了不同故障类型、不同故障持续时间、不同短路比等因素对频率变化特性的影响.理论分析和仿真表明:保护动作之前电压、电流相位超前的累积等效为频率的增加,锁相差导致频率变化特性更加复杂,不同故障工况下具有不同的频率变化特性.
Due to the large rotational inertia of synchronous machines,frequency changes caused by faults are minimal.In contrast,new energy systems have smaller rotational inertia,which can result in more significant frequency variations during faults.These larger frequency fluctuations inevitably lead to changes in the characteristics of existing relay protection.There is limited research in the current literature on the frequency variation characteristics of PMSG under fault conditions.To address this issue,firstly,analyzed the phase variation characteristics of voltage and current during line faults based on a single direct-drive wind turbine system with an infinite bus,considering the grid-side inverter control strategy,thus revealing the mechanism of frequency changes in PMSG.Then the impact of the phase lock error induced by the phase-locked loop on the frequency response characteristics of the direct-drive wind turbine was considered.Finally,through simulation,the effects of different fault types,fault durations,and short-circuit ratios on frequency variation characteristics were analyzed.Theoretical analysis and simulations show that the phase lead of voltage and current before the protection action is cumulative and effectively equivalent to an increase in frequency.The phase-locked loop error makes the frequency variation characteristics more complex,and different fault conditions result in different frequency variation characteristics.
孙向飞;李平;达光军;窦小昌
昆明理工大学 电力工程学院,云南 昆明 650500昆明理工大学 电力工程学院,云南 昆明 650500昆明理工大学 电力工程学院,云南 昆明 650500昆明理工大学 电力工程学院,云南 昆明 650500
信息技术与安全科学
直驱风机并网系统相位变化频率特性锁相差
direct-drive wind turbines grid connection systemphase variationfrequency characteristicsphase-locked loop error
《电气传动》 2026 (6)
49-57,9
国家自然科学基金(52037003,51007035)云南省重大专项(202002AF080001)
评论