Cascaded H-bridge inverter(CHBI) with supercapacitors(SCs) and dc-dc stage shows significant promise for medium to high voltage energy storage applications. This paper investigates the voltage balance of capacitors wi...Cascaded H-bridge inverter(CHBI) with supercapacitors(SCs) and dc-dc stage shows significant promise for medium to high voltage energy storage applications. This paper investigates the voltage balance of capacitors within the CHBI, including both the dc-link capacitors and SCs. Balance control over the dc-link capacitor voltages is realized by the dcdc stage in each submodule(SM), while a hybrid modulation strategy(HMS) is implemented in the H-bridge to balance the SC voltages among the SMs. Meanwhile, the dc-link voltage fluctuations are analyzed under the HMS. A virtual voltage variable is introduced to coordinate the balancing of dc-link capacitor voltages and SC voltages. Compared to the balancing method that solely considers the SC voltages, the presented method reduces the dc-link voltage fluctuations without affecting the voltage balance of SCs. Finally, both simulation and experimental results verify the effectiveness of the presented method.展开更多
In order to improve the voltage quality of rural power distribution network, the series capacitor in distribution lines is proposed. The principle of series capacitor compensation technology to improve the quality of ...In order to improve the voltage quality of rural power distribution network, the series capacitor in distribution lines is proposed. The principle of series capacitor compensation technology to improve the quality of rural power distribution lines voltage is analyzed. The real rural power distribution network simulation model is established by Power System Power System Analysis Software Package (PSASP). Simulation analysis the effect of series capacitor compensation technology to improve the voltage quality of rural power distribution network, The simulation results show that the series capacitor compensation can effectively improve the voltage quality and reduce network losses and improve the transmission capacity of rural power distribution network.展开更多
An accurate fault location algorithm for double-circuit series compensated lines is presented.Use of two-end unsynchronized measurements of current and voltage signals is considered.The algorithm applies two subroutin...An accurate fault location algorithm for double-circuit series compensated lines is presented.Use of two-end unsynchronized measurements of current and voltage signals is considered.The algorithm applies two subroutines,designated for locating faults on particular line sections,and additionally the procedure for selecting the valid subroutine.The subroutines are formulated with use of the generalized fault loop model and the distributed parameter line model is applied.Performed ATP-EMTP based evaluation has shown the validity of the derived fault location algorithm and its high accuracy.展开更多
直流母线电容作为电机驱动变换器中最薄弱的元件之一,其老化会导致系统故障的概率增大,因此对电容老化进行在线监测至关重要。针对现有监测方法存在经济性差、采样频率高、影响系统正常运行等问题,提出一种基于长周期暂态信号分析的电...直流母线电容作为电机驱动变换器中最薄弱的元件之一,其老化会导致系统故障的概率增大,因此对电容老化进行在线监测至关重要。针对现有监测方法存在经济性差、采样频率高、影响系统正常运行等问题,提出一种基于长周期暂态信号分析的电容在线监测方法,用于估计电机驱动变换器直流母线等值串联电容(equivalent series capacitance,ESC)。首先,根据系统负载切换过程建立共节点感-容等值暂态模型,分析长周期暂态信号特点。其次,推导基于长周期暂态信号的在线监测模型,确定监测程序启动判定条件。然后,提出一种基于多项式重构的电容电流基线校准方法,消除传感器零漂影响,提高监测精度。最后,仿真和实验表明所提出方法的监测精度满足电容监测的要求。展开更多
针对如何确定可控串联电容器(Thyristor Controlled Series Capacitor,TCSC)的安装位置和容量,以最大限度地提高系统可用输电能力(Available transfer capability,ATC),建立了用于提高输电能力的TCSC优化配置数学模型,对免疫算法中抗体...针对如何确定可控串联电容器(Thyristor Controlled Series Capacitor,TCSC)的安装位置和容量,以最大限度地提高系统可用输电能力(Available transfer capability,ATC),建立了用于提高输电能力的TCSC优化配置数学模型,对免疫算法中抗体按亲和度的排序法进行了改进,使抗体种群向补偿量减小的方向进化,可以节省补偿容量。利用改进后的免疫算法对模型进行求解,该方法能够同时确定TCSC的最佳安装地点和最优补偿度,且对加装多个TCSC时的情况也同样适用。最后对IEEE30节点系统进行计算,并应用逐条支路安装测试的方法对结果加以验证,表明所提方法是合理且有效的。展开更多
可控串联电容补偿(thyristor controlled series capacitor,TCSC)能够控制串联电容器与汽轮发电机轴系之间的能量交换,抑制系统中的次同步分量,从而避免发生次同步谐振的风险。对TCSC抑制次同步谐振(sub-synchronous resonance,SSR)的2...可控串联电容补偿(thyristor controlled series capacitor,TCSC)能够控制串联电容器与汽轮发电机轴系之间的能量交换,抑制系统中的次同步分量,从而避免发生次同步谐振的风险。对TCSC抑制次同步谐振(sub-synchronous resonance,SSR)的2种不同方法,即自然抑制和主动抑制,进行了分析和对比,设计了次同步阻尼控制器,研究了TCSC在不同触发角下及附加了阻尼控制器的主动抑制下对次同步谐振抑制的效果,通过PSCAD/EMTDC对这些方法进行时域仿真发现,2种方法均能有效抑制SSR,而主动抑制的效果更好一些。展开更多
支路传输功率、节点电压等的越限是制约系统输电能力提高的重要因素,为此文章采用连续潮流模型,在临界运行点推导了输电能力对支路电抗灵敏度的数学表达式,提出根据此灵敏度排序结果确定可控串联补偿器(thyristor controlled series cap...支路传输功率、节点电压等的越限是制约系统输电能力提高的重要因素,为此文章采用连续潮流模型,在临界运行点推导了输电能力对支路电抗灵敏度的数学表达式,提出根据此灵敏度排序结果确定可控串联补偿器(thyristor controlled series capacitor,TCSC)安装地点的新方法。该方法中,TCSC安装位置确定以后,将安装TCSC之前发生越界的不等式约束在其边界值处用等式形式表示出来,并设定为已知条件,将TCSC对其所要安装支路的补偿度设定为一个新的未知量,扩展常规潮流方程,以求取扩展潮流不匹配函数的最小值为目标,计算支路的最优补偿度。对IEEE30节点和IEEE118节点系统的仿真计算结果表明该文所提出的选址和定容方法是有效的。展开更多
基金supported in part by the CAS Project for Young Scientists in Basic Research under Grant No. YSBR-045the Youth Innovation Promotion Association CAS under Grant 2022137the Institute of Electrical Engineering CAS under Grant E155320101。
文摘Cascaded H-bridge inverter(CHBI) with supercapacitors(SCs) and dc-dc stage shows significant promise for medium to high voltage energy storage applications. This paper investigates the voltage balance of capacitors within the CHBI, including both the dc-link capacitors and SCs. Balance control over the dc-link capacitor voltages is realized by the dcdc stage in each submodule(SM), while a hybrid modulation strategy(HMS) is implemented in the H-bridge to balance the SC voltages among the SMs. Meanwhile, the dc-link voltage fluctuations are analyzed under the HMS. A virtual voltage variable is introduced to coordinate the balancing of dc-link capacitor voltages and SC voltages. Compared to the balancing method that solely considers the SC voltages, the presented method reduces the dc-link voltage fluctuations without affecting the voltage balance of SCs. Finally, both simulation and experimental results verify the effectiveness of the presented method.
文摘In order to improve the voltage quality of rural power distribution network, the series capacitor in distribution lines is proposed. The principle of series capacitor compensation technology to improve the quality of rural power distribution lines voltage is analyzed. The real rural power distribution network simulation model is established by Power System Power System Analysis Software Package (PSASP). Simulation analysis the effect of series capacitor compensation technology to improve the voltage quality of rural power distribution network, The simulation results show that the series capacitor compensation can effectively improve the voltage quality and reduce network losses and improve the transmission capacity of rural power distribution network.
文摘An accurate fault location algorithm for double-circuit series compensated lines is presented.Use of two-end unsynchronized measurements of current and voltage signals is considered.The algorithm applies two subroutines,designated for locating faults on particular line sections,and additionally the procedure for selecting the valid subroutine.The subroutines are formulated with use of the generalized fault loop model and the distributed parameter line model is applied.Performed ATP-EMTP based evaluation has shown the validity of the derived fault location algorithm and its high accuracy.
文摘直流母线电容作为电机驱动变换器中最薄弱的元件之一,其老化会导致系统故障的概率增大,因此对电容老化进行在线监测至关重要。针对现有监测方法存在经济性差、采样频率高、影响系统正常运行等问题,提出一种基于长周期暂态信号分析的电容在线监测方法,用于估计电机驱动变换器直流母线等值串联电容(equivalent series capacitance,ESC)。首先,根据系统负载切换过程建立共节点感-容等值暂态模型,分析长周期暂态信号特点。其次,推导基于长周期暂态信号的在线监测模型,确定监测程序启动判定条件。然后,提出一种基于多项式重构的电容电流基线校准方法,消除传感器零漂影响,提高监测精度。最后,仿真和实验表明所提出方法的监测精度满足电容监测的要求。
文摘针对如何确定可控串联电容器(Thyristor Controlled Series Capacitor,TCSC)的安装位置和容量,以最大限度地提高系统可用输电能力(Available transfer capability,ATC),建立了用于提高输电能力的TCSC优化配置数学模型,对免疫算法中抗体按亲和度的排序法进行了改进,使抗体种群向补偿量减小的方向进化,可以节省补偿容量。利用改进后的免疫算法对模型进行求解,该方法能够同时确定TCSC的最佳安装地点和最优补偿度,且对加装多个TCSC时的情况也同样适用。最后对IEEE30节点系统进行计算,并应用逐条支路安装测试的方法对结果加以验证,表明所提方法是合理且有效的。
文摘可控串联电容补偿(thyristor controlled series capacitor,TCSC)能够控制串联电容器与汽轮发电机轴系之间的能量交换,抑制系统中的次同步分量,从而避免发生次同步谐振的风险。对TCSC抑制次同步谐振(sub-synchronous resonance,SSR)的2种不同方法,即自然抑制和主动抑制,进行了分析和对比,设计了次同步阻尼控制器,研究了TCSC在不同触发角下及附加了阻尼控制器的主动抑制下对次同步谐振抑制的效果,通过PSCAD/EMTDC对这些方法进行时域仿真发现,2种方法均能有效抑制SSR,而主动抑制的效果更好一些。
文摘支路传输功率、节点电压等的越限是制约系统输电能力提高的重要因素,为此文章采用连续潮流模型,在临界运行点推导了输电能力对支路电抗灵敏度的数学表达式,提出根据此灵敏度排序结果确定可控串联补偿器(thyristor controlled series capacitor,TCSC)安装地点的新方法。该方法中,TCSC安装位置确定以后,将安装TCSC之前发生越界的不等式约束在其边界值处用等式形式表示出来,并设定为已知条件,将TCSC对其所要安装支路的补偿度设定为一个新的未知量,扩展常规潮流方程,以求取扩展潮流不匹配函数的最小值为目标,计算支路的最优补偿度。对IEEE30节点和IEEE118节点系统的仿真计算结果表明该文所提出的选址和定容方法是有效的。