An electrical network constantly faces unforeseen events such as faults on lines, loss of load and loss of generation. Under-frequency load shedding and generator tripping are traditional methods used to stabilise a network when a transient fault occurs. These methods will prevent any network instability by shedding load or tripping the most critical generator at a calculated time when required. By executing these methods, the network can be stabilised in terms of balancing the generation and the load of a power system. A hybrid control scheme is proposed where the traditional methods are combined to reduce the stress levels exerted on the network and to minimise the load to be shed
A new design of load shedding against long-term voltage instability is proposed. It uses a set of di...
This paper proposes a methodology for the design of automatic load shedding against long-term voltag...
Aim. A novel technique for detecting imminent voltage instability is proposed in this paper, accompa...
An electrical network constantly faces unforeseen events such as faults on lines, loss of load and l...
International audienceEmergency voltage control problems in electric power networks have stimulated ...
This paper proposes a load shedding program for evaluating and distributing the minimum load power t...
Power systems in many countries are stressed towards their stability limit. If these stable systems ...
This paper concerns with transient stability control which is part of transient stability assessment...
peer reviewedThis paper provides an overview of emergency voltage stability controls in power system...
The integration of load shedding schemes with mainstream protection in power system networks is vita...
These days, power systems are operated close to their stability limit, and disturbances such as tran...
peer reviewedWe consider power systems for which the amount of power produced by their individual po...
This paper concerns with transient stability control which is part of transient stability assessment...
Following large disturbances, the conventional under frequency load shedding (UFLS) relays may not o...
This paper proposes a methodology for the design of automatic load shedding against voltage instabil...
A new design of load shedding against long-term voltage instability is proposed. It uses a set of di...
This paper proposes a methodology for the design of automatic load shedding against long-term voltag...
Aim. A novel technique for detecting imminent voltage instability is proposed in this paper, accompa...
An electrical network constantly faces unforeseen events such as faults on lines, loss of load and l...
International audienceEmergency voltage control problems in electric power networks have stimulated ...
This paper proposes a load shedding program for evaluating and distributing the minimum load power t...
Power systems in many countries are stressed towards their stability limit. If these stable systems ...
This paper concerns with transient stability control which is part of transient stability assessment...
peer reviewedThis paper provides an overview of emergency voltage stability controls in power system...
The integration of load shedding schemes with mainstream protection in power system networks is vita...
These days, power systems are operated close to their stability limit, and disturbances such as tran...
peer reviewedWe consider power systems for which the amount of power produced by their individual po...
This paper concerns with transient stability control which is part of transient stability assessment...
Following large disturbances, the conventional under frequency load shedding (UFLS) relays may not o...
This paper proposes a methodology for the design of automatic load shedding against voltage instabil...
A new design of load shedding against long-term voltage instability is proposed. It uses a set of di...
This paper proposes a methodology for the design of automatic load shedding against long-term voltag...
Aim. A novel technique for detecting imminent voltage instability is proposed in this paper, accompa...