Multi-paralleled bidirectional power converters(BPCs)are commonly used to improve the power capacity and reliability in an AC/DC hybrid microgrid.However,circulating current through multi-BPCs has been one of the chal...Multi-paralleled bidirectional power converters(BPCs)are commonly used to improve the power capacity and reliability in an AC/DC hybrid microgrid.However,circulating current through multi-BPCs has been one of the challenges and it can be aggravated in the presence of non-ideal operating conditions,such as unbalanced AC voltages,and the mismatch of hardware parameters.In order to suppress the circulating current,this paper proposes a distributed method based on adaptive virtual impedance,which also employs positive sequence power droop control and voltage deviation compensation control.The traditional positive sequence power droop control is adopted to only regulate the positive components of the BPCs output voltage.The negative sequence power term is fed to an adaptive virtual impedance generator to modify the damping characteristics of the BPCs.Also,an adaptive virtual impedance-based voltage deviation compensation method is proposed to recover the fluctuated output voltage of the BPCs due to droop action and the power fluctuations.The fully distributed regulation of adaptive virtual impedance enables the load power to be shared accurately among BPC modules and thus the circulating current can be effectively suppressed.The proposed control strategy does not require an additional communication system and the precise parameters of hardware equipment and line impedance.Furthermore,the effectiveness of the proposed method is verified by the experimental results.展开更多
为揭示直流系统运行方式与变压器直流偏磁现象之间的内在联系,基于宜昌电网的实际参数和PSCAD/EMTDC电磁暂态仿真平台,采用交流系统网络化建模的方法,建立了包含宜昌电网两条500 k V直流输电线路以及接地极临近区域220 k V交流变压器的...为揭示直流系统运行方式与变压器直流偏磁现象之间的内在联系,基于宜昌电网的实际参数和PSCAD/EMTDC电磁暂态仿真平台,采用交流系统网络化建模的方法,建立了包含宜昌电网两条500 k V直流输电线路以及接地极临近区域220 k V交流变压器的直流偏磁电流分布仿真模型。对给定工况下变压器中性点直流电流的分布情况进行了仿真,并与现场实测的数据进行了对比验证,还分别对单接地极场景以及双接地极场景时各个特征变电站主变中性点直流电流分布情况进行仿真,揭示了变压器中性点电位差是决定其直流电流分布特征的根本原因。结果表明:所建立模型的误差在10%以下,具备复现系统实际运行情况的能力。分析结果能够为从系统运行角度抑制直流偏磁提供理论依据。展开更多
针对±800 k V溪洛渡—浙西(简称溪浙)直流工程对浙江电网直流偏磁的影响,开展了受端电网直流偏磁研究。根据浙江电网拓扑结构与广域大地模型,基于场路耦合的方法建立了溪浙直流受端电网直流偏磁仿真模型,并通过测试结果验证了模型...针对±800 k V溪洛渡—浙西(简称溪浙)直流工程对浙江电网直流偏磁的影响,开展了受端电网直流偏磁研究。根据浙江电网拓扑结构与广域大地模型,基于场路耦合的方法建立了溪浙直流受端电网直流偏磁仿真模型,并通过测试结果验证了模型的准确性。针对浙江电网的特点,提出直流偏磁的治理思路,确定了500、220、110 k V变压器的直流偏磁治理标准分别为20、15、10 A。通过多次仿真与试验修正,提出了电容电阻结合、分阶段递进式的直流偏磁治理方法。经过3个阶段,对46座直流偏磁超标的变电站进行了治理,有效的抑制了浙江电网的直流偏磁水平。展开更多
针对MMC(modular multilevel converter)型VSC-HVDC(voltage source converter-high voltage direct current)在并网运行模式与孤岛运行模式相互切换过程中易于发生切换失败、冲击电流大的难题,将虚拟同步控制运用到MMC的运行模式切换...针对MMC(modular multilevel converter)型VSC-HVDC(voltage source converter-high voltage direct current)在并网运行模式与孤岛运行模式相互切换过程中易于发生切换失败、冲击电流大的难题,将虚拟同步控制运用到MMC的运行模式切换中。在虚拟同步控制和MMC基本原理的基础上,提出基于虚拟同步控制的MMC-HVDC(modular multilevel converter-high voltage direct current)无缝切换控制方法。引入的虚拟同步控制无需采用专门的同步控制电路,并网前可自动与电网同步;并网后能准确跟随电网频率,实现友好并网。当电网出现故障或需要检修时,MMC仍可孤岛运行,从而实现了运行模式的无缝切换。PSCAD/EMTDC平台下的仿真结果验证了所述控制策略的可行性和有效性。展开更多
基金This work was supported in part by the National Natural Science Foundation of China(51807130)the National key research and development program of China(2018YFB0904700)+1 种基金the Major Science and Technology Projects in Shanxi Province(20181102028)the Postgraduate Education Innovation Project of Shanxi Province(2019BY048)。
文摘Multi-paralleled bidirectional power converters(BPCs)are commonly used to improve the power capacity and reliability in an AC/DC hybrid microgrid.However,circulating current through multi-BPCs has been one of the challenges and it can be aggravated in the presence of non-ideal operating conditions,such as unbalanced AC voltages,and the mismatch of hardware parameters.In order to suppress the circulating current,this paper proposes a distributed method based on adaptive virtual impedance,which also employs positive sequence power droop control and voltage deviation compensation control.The traditional positive sequence power droop control is adopted to only regulate the positive components of the BPCs output voltage.The negative sequence power term is fed to an adaptive virtual impedance generator to modify the damping characteristics of the BPCs.Also,an adaptive virtual impedance-based voltage deviation compensation method is proposed to recover the fluctuated output voltage of the BPCs due to droop action and the power fluctuations.The fully distributed regulation of adaptive virtual impedance enables the load power to be shared accurately among BPC modules and thus the circulating current can be effectively suppressed.The proposed control strategy does not require an additional communication system and the precise parameters of hardware equipment and line impedance.Furthermore,the effectiveness of the proposed method is verified by the experimental results.
文摘为揭示直流系统运行方式与变压器直流偏磁现象之间的内在联系,基于宜昌电网的实际参数和PSCAD/EMTDC电磁暂态仿真平台,采用交流系统网络化建模的方法,建立了包含宜昌电网两条500 k V直流输电线路以及接地极临近区域220 k V交流变压器的直流偏磁电流分布仿真模型。对给定工况下变压器中性点直流电流的分布情况进行了仿真,并与现场实测的数据进行了对比验证,还分别对单接地极场景以及双接地极场景时各个特征变电站主变中性点直流电流分布情况进行仿真,揭示了变压器中性点电位差是决定其直流电流分布特征的根本原因。结果表明:所建立模型的误差在10%以下,具备复现系统实际运行情况的能力。分析结果能够为从系统运行角度抑制直流偏磁提供理论依据。
文摘针对±800 k V溪洛渡—浙西(简称溪浙)直流工程对浙江电网直流偏磁的影响,开展了受端电网直流偏磁研究。根据浙江电网拓扑结构与广域大地模型,基于场路耦合的方法建立了溪浙直流受端电网直流偏磁仿真模型,并通过测试结果验证了模型的准确性。针对浙江电网的特点,提出直流偏磁的治理思路,确定了500、220、110 k V变压器的直流偏磁治理标准分别为20、15、10 A。通过多次仿真与试验修正,提出了电容电阻结合、分阶段递进式的直流偏磁治理方法。经过3个阶段,对46座直流偏磁超标的变电站进行了治理,有效的抑制了浙江电网的直流偏磁水平。
文摘针对MMC(modular multilevel converter)型VSC-HVDC(voltage source converter-high voltage direct current)在并网运行模式与孤岛运行模式相互切换过程中易于发生切换失败、冲击电流大的难题,将虚拟同步控制运用到MMC的运行模式切换中。在虚拟同步控制和MMC基本原理的基础上,提出基于虚拟同步控制的MMC-HVDC(modular multilevel converter-high voltage direct current)无缝切换控制方法。引入的虚拟同步控制无需采用专门的同步控制电路,并网前可自动与电网同步;并网后能准确跟随电网频率,实现友好并网。当电网出现故障或需要检修时,MMC仍可孤岛运行,从而实现了运行模式的无缝切换。PSCAD/EMTDC平台下的仿真结果验证了所述控制策略的可行性和有效性。