电网电压的骤升会带来新能源发电系统并网逆变器(grid-connected inverter,GCI)控制裕度的下降,如若失控则会导致能量由电网倒灌进入逆变器进而引发直流侧过压或过流。为改善电网电压骤升对GCI所造成的暂态冲击,确保其安全并网运行,该...电网电压的骤升会带来新能源发电系统并网逆变器(grid-connected inverter,GCI)控制裕度的下降,如若失控则会导致能量由电网倒灌进入逆变器进而引发直流侧过压或过流。为改善电网电压骤升对GCI所造成的暂态冲击,确保其安全并网运行,该文提出一种GCI高电压穿越(high voltage ride-through,HVRT)控制策略。首先分析容量限制条件下GCI的电流控制能力,讨论不同电网电压骤升幅度情况下GCI的可控区。在此基础上,设计基于电网电压和发电侧负载电流信息的直流母线电压参考值自适应调节算法,以确保电网电压骤升期间GCI的可控性。最后,结合感性无功电流控制,给出GCI的HVRT方案。仿真和实验结果验证了GCI控制能力分析的正确性和所提出控制策略的有效性。展开更多
For a class of mixed initial-boundary value problem for general quasilinear hyperbolic systems, this paper establishes the local exact boundary controllability with boundary controls only acting on one end. As an appl...For a class of mixed initial-boundary value problem for general quasilinear hyperbolic systems, this paper establishes the local exact boundary controllability with boundary controls only acting on one end. As an application, the authors show the local exact boundary controllability for a kind of nonlinear vibrating string problem.展开更多
文摘电网电压的骤升会带来新能源发电系统并网逆变器(grid-connected inverter,GCI)控制裕度的下降,如若失控则会导致能量由电网倒灌进入逆变器进而引发直流侧过压或过流。为改善电网电压骤升对GCI所造成的暂态冲击,确保其安全并网运行,该文提出一种GCI高电压穿越(high voltage ride-through,HVRT)控制策略。首先分析容量限制条件下GCI的电流控制能力,讨论不同电网电压骤升幅度情况下GCI的可控区。在此基础上,设计基于电网电压和发电侧负载电流信息的直流母线电压参考值自适应调节算法,以确保电网电压骤升期间GCI的可控性。最后,结合感性无功电流控制,给出GCI的HVRT方案。仿真和实验结果验证了GCI控制能力分析的正确性和所提出控制策略的有效性。
基金Project supported by the Special Funds forMajor State Basic Research Projects ofChina.
文摘For a class of mixed initial-boundary value problem for general quasilinear hyperbolic systems, this paper establishes the local exact boundary controllability with boundary controls only acting on one end. As an application, the authors show the local exact boundary controllability for a kind of nonlinear vibrating string problem.