Automatic line reclosing schemes used in an extra-high-voltage power system is an economical and effective means to maintain transient stability. A novel method is proposed in the paper to adaptively optimize the auto...Automatic line reclosing schemes used in an extra-high-voltage power system is an economical and effective means to maintain transient stability. A novel method is proposed in the paper to adaptively optimize the automatic line reclosing time after a transient fault for enhancement of interconnected power system transient stability. Both the study on the transient energy over network and the structure-preserving multi-machines power system model illustrate that the excessive convergence of potential energy on the lines with a certain cutset deteriorate power system stability, and therefore, an optimum line reclosing strategy can be established by minimizing the change in transient potential energy distribution across a cutset lines in the vicinity of the faulty line as an optimization target, and the optimal reclosure time is set to the time of minimum line phase angle difference. Without any pre-determined knowledge, the method is adaptive to various power system operation modes and fault conditions, and easy to implement because only a limited number of data measured at one location on a tie-line linking sub-networks are required. Simulations have been performed with the OMIB(One Machine and Infinite Bus System) and a real inter-connected power system to verify the applicability of the method proposed.展开更多
在实现光伏电站低电压穿越(Low Voltage Ride Through,LVRT)的基础上,分析了光伏电站接入配电网LVRT对前加速自动重合闸的影响。根据故障发生的位置不同,基于时域分析对LVRT和前加速自动重合闸的延时进行整定,提出了光伏电站LVRT与前加...在实现光伏电站低电压穿越(Low Voltage Ride Through,LVRT)的基础上,分析了光伏电站接入配电网LVRT对前加速自动重合闸的影响。根据故障发生的位置不同,基于时域分析对LVRT和前加速自动重合闸的延时进行整定,提出了光伏电站LVRT与前加速自动重合闸的配合方案。该方法能够解决前加速重合闸重合时间与LVRT时限不匹配,导致并网点电压二次跌落和瞬时性故障发展成为永久性故障的问题。通过在电磁暂态仿真软件(Power Systems Computer Aided Design,PSCAD)中建立仿真模型,在10 k V配电网中验证了所提方法的有效性和正确性。展开更多
文摘Automatic line reclosing schemes used in an extra-high-voltage power system is an economical and effective means to maintain transient stability. A novel method is proposed in the paper to adaptively optimize the automatic line reclosing time after a transient fault for enhancement of interconnected power system transient stability. Both the study on the transient energy over network and the structure-preserving multi-machines power system model illustrate that the excessive convergence of potential energy on the lines with a certain cutset deteriorate power system stability, and therefore, an optimum line reclosing strategy can be established by minimizing the change in transient potential energy distribution across a cutset lines in the vicinity of the faulty line as an optimization target, and the optimal reclosure time is set to the time of minimum line phase angle difference. Without any pre-determined knowledge, the method is adaptive to various power system operation modes and fault conditions, and easy to implement because only a limited number of data measured at one location on a tie-line linking sub-networks are required. Simulations have been performed with the OMIB(One Machine and Infinite Bus System) and a real inter-connected power system to verify the applicability of the method proposed.
文摘在实现光伏电站低电压穿越(Low Voltage Ride Through,LVRT)的基础上,分析了光伏电站接入配电网LVRT对前加速自动重合闸的影响。根据故障发生的位置不同,基于时域分析对LVRT和前加速自动重合闸的延时进行整定,提出了光伏电站LVRT与前加速自动重合闸的配合方案。该方法能够解决前加速重合闸重合时间与LVRT时限不匹配,导致并网点电压二次跌落和瞬时性故障发展成为永久性故障的问题。通过在电磁暂态仿真软件(Power Systems Computer Aided Design,PSCAD)中建立仿真模型,在10 k V配电网中验证了所提方法的有效性和正确性。