The resilient operation of microgrids (MGs) relies strongly on their ability to operate in islanded mode, autonomously from the bulk grid, whilst adhering to secure operation requirements. Catastrophic events in the transmission grid can lead to abrupt MG islanding accommodated by large frequency and voltage excursions due to power imbalances within the MG. It is vital that MG scheduling algorithms incorporate both static and transient security metrics to ensure a secure transition during islanding, immunised against the transient phenomena. In this paper, we incorporate both frequency- and voltage-related security constraints in a MG operational planning problem to ensure robust operation against abrupt islanding events. We employ an itera...
As an achievement of innovations resulting from partitioning mechanisms, these mechanisms can contri...
Abstract This paper presents a coordination strategy of Load Frequency Control (LFC) and digital fre...
A two-stage adaptive robust optimization is developed for pre-disturbance scheduling in microgrids (...
Emergency islanding of a microgrid (MG) can be vital in ensuring continuity of power supply to a loc...
Recent years have seen electric power systems transitioned to become more sustainable through the in...
When planning the investment in Microgrids (MGs), usually static security constraints are included ...
This paper deals with the stochastic scheduling of a microgrid (MG) to balance the economical and re...
This paper presents a stochastic framework for optimal scheduling of microgrids (MGs) considering un...
In this paper, the applicability of Microgrids (MGs) is reviewed for power system resilience against...
As the frequency of extreme weather events rises, the resilience of power systems is becoming increa...
This paper proposes a management technique which will retain the voltage and frequency of standalone...
The electric power industry and society are facing the challenges and opportunities of transforming ...
Reliability and resilience are the main drivers for the transition of distribution networks from pas...
As an achievement of innovations resulting from partitioning mechanisms, these mechanisms can contri...
Abstract This paper presents a coordination strategy of Load Frequency Control (LFC) and digital fre...
A two-stage adaptive robust optimization is developed for pre-disturbance scheduling in microgrids (...
Emergency islanding of a microgrid (MG) can be vital in ensuring continuity of power supply to a loc...
Recent years have seen electric power systems transitioned to become more sustainable through the in...
When planning the investment in Microgrids (MGs), usually static security constraints are included ...
This paper deals with the stochastic scheduling of a microgrid (MG) to balance the economical and re...
This paper presents a stochastic framework for optimal scheduling of microgrids (MGs) considering un...
In this paper, the applicability of Microgrids (MGs) is reviewed for power system resilience against...
As the frequency of extreme weather events rises, the resilience of power systems is becoming increa...
This paper proposes a management technique which will retain the voltage and frequency of standalone...
The electric power industry and society are facing the challenges and opportunities of transforming ...
Reliability and resilience are the main drivers for the transition of distribution networks from pas...
As an achievement of innovations resulting from partitioning mechanisms, these mechanisms can contri...
Abstract This paper presents a coordination strategy of Load Frequency Control (LFC) and digital fre...
A two-stage adaptive robust optimization is developed for pre-disturbance scheduling in microgrids (...