以静止无功发生器(static var generator,SVG)为例,针对构网型逆变器和SVG并联系统的电压稳定性问题,提出构网型逆变器与SVG并联系统无功功率协调控制策略。将并联系统的运行状态总结为四种工况,通过工况识别、无功补偿量计算、无功功...以静止无功发生器(static var generator,SVG)为例,针对构网型逆变器和SVG并联系统的电压稳定性问题,提出构网型逆变器与SVG并联系统无功功率协调控制策略。将并联系统的运行状态总结为四种工况,通过工况识别、无功补偿量计算、无功功率分配策略、工况切换,来协调不同工况下构网型逆变器与SVG注入公共耦合点的无功功率,使并联系统在各种情况下均可稳定可靠工作。在MATLAB中搭建模型并进行仿真,结果表明所提控制策略可以实现工况的快速识别与切换、无功补偿量的计算、无功功率的分配,以及对公共耦合点电压的快速支撑。展开更多
The number of students demanding computer science(CS)education is rapidly rising,and while faculty sizes are also growing,the traditional pipeline consisting of a CS major,a CS master’s,and then a move to industry or...The number of students demanding computer science(CS)education is rapidly rising,and while faculty sizes are also growing,the traditional pipeline consisting of a CS major,a CS master’s,and then a move to industry or a Ph.D.program is simply not scalable.To address this problem,the Department of Computing at the University of Illinois has introduced a multidisciplinary approach to computing,which is a scalable and collaborative approach to capitalize on the tremendous demand for computer science education.The key component of the approach is the blended major,also referred to as“CS+X”,where CS denotes computer science and X denotes a non-computing field.These CS+X blended degrees enable win-win partnerships among multiple subject areas,distributing the educational responsibilities while growing the entire university.To meet the demand from non-CS majors,another pathway that is offered is a graduate certificate program in addition to the traditional minor program.To accommodate the large number of students,scalable teaching tools,such as automatic graders,have also been developed.展开更多
以某750 kV变电站2号静止无功发生器(static var generator,SVG)为背景,针对其在并网投运过程中发生光纤断路故障为研究对象,提出避免该类故障的处理措施。首先对故障过程进行解读,在分析取能电源拓扑结构的同时,将模块取能电源进行解...以某750 kV变电站2号静止无功发生器(static var generator,SVG)为背景,针对其在并网投运过程中发生光纤断路故障为研究对象,提出避免该类故障的处理措施。首先对故障过程进行解读,在分析取能电源拓扑结构的同时,将模块取能电源进行解体试验,得到其故障原因为单模块的取能电源中输入电容的引脚受损处于虚接状态,进而造成50 V转400 V电路板处于低压输入工作状态,最后匝间短路烧坏,致使光纤断路以至于2号SVG并网失败。再结合该装置从投运以来故障频发的器件类型,确认这类故障具有共性原因,均为取能电源里的精细元件经过长途运输颠簸、振动等原因发生断裂或接触不良等问题,进而造成跳闸等故障。最后提出对精细元件点胶加固、采取抗震性能高的包装箱等处理措施来预防此类故障的发生。展开更多
闽粤联网背靠背直流输电工程配置了专用于大容量高压直流工程滤波的高压直流工程滤波的高压有源滤波器(high voltage active power filter,HAPF)和静止无功发生器(static var generator,SVG),以分别满足换流站两侧的滤波需求和无功功率...闽粤联网背靠背直流输电工程配置了专用于大容量高压直流工程滤波的高压直流工程滤波的高压有源滤波器(high voltage active power filter,HAPF)和静止无功发生器(static var generator,SVG),以分别满足换流站两侧的滤波需求和无功功率支撑。根据闽粤工程的特点,提出了完整的直流系统带电试验方案和HAPF、SVG与直流协同运行试验方案,验证了设备的可用性及与直流系统的适配性。针对实际运行中SVG故障退出事件,深入分析了SVG的高压暂态响应过程中多因素引起的连锁反应过程,并根据针对性的优化控制策略,提出了SVG单体设备高压/低压/三相不平衡暂态控制带电试验方案,以及验证SVG故障下SVG与直流系统全过程整体控制策略的系统试验方案,通过现场实施,验证了优化策略的正确性和有效性。展开更多
文摘以静止无功发生器(static var generator,SVG)为例,针对构网型逆变器和SVG并联系统的电压稳定性问题,提出构网型逆变器与SVG并联系统无功功率协调控制策略。将并联系统的运行状态总结为四种工况,通过工况识别、无功补偿量计算、无功功率分配策略、工况切换,来协调不同工况下构网型逆变器与SVG注入公共耦合点的无功功率,使并联系统在各种情况下均可稳定可靠工作。在MATLAB中搭建模型并进行仿真,结果表明所提控制策略可以实现工况的快速识别与切换、无功补偿量的计算、无功功率的分配,以及对公共耦合点电压的快速支撑。
文摘The number of students demanding computer science(CS)education is rapidly rising,and while faculty sizes are also growing,the traditional pipeline consisting of a CS major,a CS master’s,and then a move to industry or a Ph.D.program is simply not scalable.To address this problem,the Department of Computing at the University of Illinois has introduced a multidisciplinary approach to computing,which is a scalable and collaborative approach to capitalize on the tremendous demand for computer science education.The key component of the approach is the blended major,also referred to as“CS+X”,where CS denotes computer science and X denotes a non-computing field.These CS+X blended degrees enable win-win partnerships among multiple subject areas,distributing the educational responsibilities while growing the entire university.To meet the demand from non-CS majors,another pathway that is offered is a graduate certificate program in addition to the traditional minor program.To accommodate the large number of students,scalable teaching tools,such as automatic graders,have also been developed.
文摘闽粤联网背靠背直流输电工程配置了专用于大容量高压直流工程滤波的高压直流工程滤波的高压有源滤波器(high voltage active power filter,HAPF)和静止无功发生器(static var generator,SVG),以分别满足换流站两侧的滤波需求和无功功率支撑。根据闽粤工程的特点,提出了完整的直流系统带电试验方案和HAPF、SVG与直流协同运行试验方案,验证了设备的可用性及与直流系统的适配性。针对实际运行中SVG故障退出事件,深入分析了SVG的高压暂态响应过程中多因素引起的连锁反应过程,并根据针对性的优化控制策略,提出了SVG单体设备高压/低压/三相不平衡暂态控制带电试验方案,以及验证SVG故障下SVG与直流系统全过程整体控制策略的系统试验方案,通过现场实施,验证了优化策略的正确性和有效性。