With continuously increasing of photovoltaic (PV) plant’s penetration, it has become a critical issue to improve the fault ride-through capability of PV plant. This paper refers to the German grid code, and the PV sy...With continuously increasing of photovoltaic (PV) plant’s penetration, it has become a critical issue to improve the fault ride-through capability of PV plant. This paper refers to the German grid code, and the PV system is controlled to keep grid connected, as well as inject reactive current to grid when fault occurs. The mathematical model of PV system is established and the fault characteristic is studied with respect to the control strategy. By analyzing the effect of reactive power supplied by the PV system to the point of common coupling (PCC) voltage, this paper proposes an adaptive voltage support control strategy to enhance the fault ride-through capability of PV system. The control strategy fully utilizes the PV system’s capability of voltage support and takes the safety of equipment into account as well. At last, the proposed control strategy is verified by simulation.展开更多
The installation of wind energy has increased rapidly around the world. The grid codes about the wind energy require wind turbine (WT) has the ability of fault (or low voltage) ride-through (FRT). To study the FRT ope...The installation of wind energy has increased rapidly around the world. The grid codes about the wind energy require wind turbine (WT) has the ability of fault (or low voltage) ride-through (FRT). To study the FRT operation of the wind farms, three methods were discussed. First, the rotor short current of doubly-fed induction generator (DFIG) was limited by introducing a rotor side protection circuit. Second, the voltage of DC bus was limited by a DC energy absorb circuit. Third, STATCOM was used to increase the low level voltages of the wind farm. Simulation under MATLAB was studied and the corresponding results were given and discussed. The methods proposed in this paper can limit the rotor short current and the DC voltage of the DFIG WT to some degree, but the voltage support to the power system during the fault largely depend on the installation place of STATCOM.展开更多
针对具有故障穿越策略的永磁风电场经多端柔性直流(Voltage Source Converter Based Multi-terminal Direct Current,VSC⁃MTDC)输电系统外送的交直流混联系统,分析故障穿越控制目标下受端交流电网故障和考虑输电线路频变特性的直流系统...针对具有故障穿越策略的永磁风电场经多端柔性直流(Voltage Source Converter Based Multi-terminal Direct Current,VSC⁃MTDC)输电系统外送的交直流混联系统,分析故障穿越控制目标下受端交流电网故障和考虑输电线路频变特性的直流系统输电线路故障发生后的故障特征,以及大时间尺度下,直流系统对交流故障的响应。研究结果表明:基于实时数字仿真(Real Time Digital Simulation,RTDS)搭建的交直流混联系统模型在有效控制故障发展的前提下,不同故障条件、控制策略下具有相对应的故障特征,如:交流并网线路故障时,负序电流将被抑制,换流站仅向故障点提供有限的正序电流,且优先输出无功功率,直流线路累积不平衡功率出现直流过电压现象,计及直流电压波动引起受端换流站的dq轴电流发生变化,造成交流线路故障电流短时间内增大约20%。直流线路发生单极接地故障时,故障极电压以最大700 kV/ms的速率迅速下降到0,非故障极电压上升为原来的两倍,且故障电流会随着接地电阻的增大而减小;当发生双极故障时,故障电流能够在数毫秒内达到额定电流的几十倍,最大速率可达8.25 kA/ms,严重威胁电力电子器件的安全,并且电压迅速降至0,此时通过混合直流断路器快速动作,在故障电流上升至额定电流2倍前切除故障线路,使系统满足N-1运行原则。仿真结果与理论分析结论相符。展开更多
文摘With continuously increasing of photovoltaic (PV) plant’s penetration, it has become a critical issue to improve the fault ride-through capability of PV plant. This paper refers to the German grid code, and the PV system is controlled to keep grid connected, as well as inject reactive current to grid when fault occurs. The mathematical model of PV system is established and the fault characteristic is studied with respect to the control strategy. By analyzing the effect of reactive power supplied by the PV system to the point of common coupling (PCC) voltage, this paper proposes an adaptive voltage support control strategy to enhance the fault ride-through capability of PV system. The control strategy fully utilizes the PV system’s capability of voltage support and takes the safety of equipment into account as well. At last, the proposed control strategy is verified by simulation.
文摘The installation of wind energy has increased rapidly around the world. The grid codes about the wind energy require wind turbine (WT) has the ability of fault (or low voltage) ride-through (FRT). To study the FRT operation of the wind farms, three methods were discussed. First, the rotor short current of doubly-fed induction generator (DFIG) was limited by introducing a rotor side protection circuit. Second, the voltage of DC bus was limited by a DC energy absorb circuit. Third, STATCOM was used to increase the low level voltages of the wind farm. Simulation under MATLAB was studied and the corresponding results were given and discussed. The methods proposed in this paper can limit the rotor short current and the DC voltage of the DFIG WT to some degree, but the voltage support to the power system during the fault largely depend on the installation place of STATCOM.
文摘针对具有故障穿越策略的永磁风电场经多端柔性直流(Voltage Source Converter Based Multi-terminal Direct Current,VSC⁃MTDC)输电系统外送的交直流混联系统,分析故障穿越控制目标下受端交流电网故障和考虑输电线路频变特性的直流系统输电线路故障发生后的故障特征,以及大时间尺度下,直流系统对交流故障的响应。研究结果表明:基于实时数字仿真(Real Time Digital Simulation,RTDS)搭建的交直流混联系统模型在有效控制故障发展的前提下,不同故障条件、控制策略下具有相对应的故障特征,如:交流并网线路故障时,负序电流将被抑制,换流站仅向故障点提供有限的正序电流,且优先输出无功功率,直流线路累积不平衡功率出现直流过电压现象,计及直流电压波动引起受端换流站的dq轴电流发生变化,造成交流线路故障电流短时间内增大约20%。直流线路发生单极接地故障时,故障极电压以最大700 kV/ms的速率迅速下降到0,非故障极电压上升为原来的两倍,且故障电流会随着接地电阻的增大而减小;当发生双极故障时,故障电流能够在数毫秒内达到额定电流的几十倍,最大速率可达8.25 kA/ms,严重威胁电力电子器件的安全,并且电压迅速降至0,此时通过混合直流断路器快速动作,在故障电流上升至额定电流2倍前切除故障线路,使系统满足N-1运行原则。仿真结果与理论分析结论相符。