Modern power systems are continually being expanded, are required to carry more power and are being increasingly interconnected. All of these increase the risk of wide area blackout.In 2003 the North America Blackout demonstrated that a HVDC link provides a ‘firewall’ against the system collapse propagating through a network. The HVDC link between Quebec and New York ensured that the system collapse did not progress beyond the HVDC interconnection interface. The objectives of this paper are to investigate contributions that integrate HVDC interconnections into AC networks. The simulation studies were performed using MATLAB
Acknowledgement Research work is in part funded by National Key R&D Program of China (2017YFB0902400...
An approach is presented for measuring the susceptibility of power systems to cascading blackouts. A...
This paper deals with a DC-segmentation of interconnected power systems which represents a relativel...
Individual HVDC links connecting the Nordic power system to other synchronous systems may carry giga...
Integration of renewable energy generations requires the transmission of bulky power over long dista...
The reported catastrophic failures of power systems from different geographical parts of the world o...
The widespread blackout that occurred on August 14, 2003 (“the blackout”) exposed the we...
Great Britain’s electricity network is undergoing a major transformation as it moves from a system b...
The reliability of electric transmission systems is challenged by the recent deployment of intermitt...
In recent years, guaranteeing that large-scale interconnected systems operate safely, stably and eco...
The interconnected electrical power system is a complicated dynamic system. The stability of this co...
The increasing integration of safety-critical infrastructures introduces vulnerabilities that extend...
Power systems are the most complex systems and have great importance in modern life. They have direc...
Blackout is a total power failure over a large area, usually caused by the failure of major generati...
The interconnected electrical power system is a complicated dynamic system. The stability of this co...
Acknowledgement Research work is in part funded by National Key R&D Program of China (2017YFB0902400...
An approach is presented for measuring the susceptibility of power systems to cascading blackouts. A...
This paper deals with a DC-segmentation of interconnected power systems which represents a relativel...
Individual HVDC links connecting the Nordic power system to other synchronous systems may carry giga...
Integration of renewable energy generations requires the transmission of bulky power over long dista...
The reported catastrophic failures of power systems from different geographical parts of the world o...
The widespread blackout that occurred on August 14, 2003 (“the blackout”) exposed the we...
Great Britain’s electricity network is undergoing a major transformation as it moves from a system b...
The reliability of electric transmission systems is challenged by the recent deployment of intermitt...
In recent years, guaranteeing that large-scale interconnected systems operate safely, stably and eco...
The interconnected electrical power system is a complicated dynamic system. The stability of this co...
The increasing integration of safety-critical infrastructures introduces vulnerabilities that extend...
Power systems are the most complex systems and have great importance in modern life. They have direc...
Blackout is a total power failure over a large area, usually caused by the failure of major generati...
The interconnected electrical power system is a complicated dynamic system. The stability of this co...
Acknowledgement Research work is in part funded by National Key R&D Program of China (2017YFB0902400...
An approach is presented for measuring the susceptibility of power systems to cascading blackouts. A...
This paper deals with a DC-segmentation of interconnected power systems which represents a relativel...