Fault current suppression is the key technology to ensure the safe operation of the DC power distribution system. In order to realize the parameter collabora-tive configuration of the DC circuit breaker and the DC cur...Fault current suppression is the key technology to ensure the safe operation of the DC power distribution system. In order to realize the parameter collabora-tive configuration of the DC circuit breaker and the DC current limiter and improve the fault current suppression capability, the fault current suppression mechanism of the DC power distribution system is revealed based on the circuit model. Then, based on the mathematical model of the DC breaker, the characteristic parameters of DC breaking are extracted, and then the influence of different characteristic parameters on the breaking characteristics of fault current is studied. Finally, the mathematical model of the collaborative process between DC circuit breaker and DC current limiter is established. The charac-teristic parameters of fault current collaborative suppression are extracted. The coupling effects of different characteristic parameters on the fault current col-laborative suppression are studied. The principle of collaborative configuration of DC circuit breaker and DC current limiter is proposed, and the collaborative suppression ability of DC circuit breaker and DC current limiter to fault current is fully exploited to ensure the safe and reliable operation of the DC power distribution system.展开更多
为解决现有直流断路器存在的限流效果差、切断时故障电流峰值高以及故障侧电流清除慢等问题,该文提出一种考虑二次限流的混合式直流限流断路器拓扑(Secondary Current Limiting Hybrid DC Circuit Breaker,SCL-HDCCB),通过在换流前后分...为解决现有直流断路器存在的限流效果差、切断时故障电流峰值高以及故障侧电流清除慢等问题,该文提出一种考虑二次限流的混合式直流限流断路器拓扑(Secondary Current Limiting Hybrid DC Circuit Breaker,SCL-HDCCB),通过在换流前后分别设计限流回路,大大降低了电力电子开关的切断压力,并设计旁路泄能回路,实现了故障侧能量的快速泄放。文中首先通过理论分析确定了开关器件开断时间和关键器件参数,然后在基于PSCAD/EMTDC的四端直流电网模型中进行了仿真,验证了该直流断路器方案的正确性和可行性。展开更多
文摘Fault current suppression is the key technology to ensure the safe operation of the DC power distribution system. In order to realize the parameter collabora-tive configuration of the DC circuit breaker and the DC current limiter and improve the fault current suppression capability, the fault current suppression mechanism of the DC power distribution system is revealed based on the circuit model. Then, based on the mathematical model of the DC breaker, the characteristic parameters of DC breaking are extracted, and then the influence of different characteristic parameters on the breaking characteristics of fault current is studied. Finally, the mathematical model of the collaborative process between DC circuit breaker and DC current limiter is established. The charac-teristic parameters of fault current collaborative suppression are extracted. The coupling effects of different characteristic parameters on the fault current col-laborative suppression are studied. The principle of collaborative configuration of DC circuit breaker and DC current limiter is proposed, and the collaborative suppression ability of DC circuit breaker and DC current limiter to fault current is fully exploited to ensure the safe and reliable operation of the DC power distribution system.
文摘为解决现有直流断路器存在的限流效果差、切断时故障电流峰值高以及故障侧电流清除慢等问题,该文提出一种考虑二次限流的混合式直流限流断路器拓扑(Secondary Current Limiting Hybrid DC Circuit Breaker,SCL-HDCCB),通过在换流前后分别设计限流回路,大大降低了电力电子开关的切断压力,并设计旁路泄能回路,实现了故障侧能量的快速泄放。文中首先通过理论分析确定了开关器件开断时间和关键器件参数,然后在基于PSCAD/EMTDC的四端直流电网模型中进行了仿真,验证了该直流断路器方案的正确性和可行性。