High-impact and low-probability (HILP) events can cause severe damage to power systems. Networked microgrids (MGs) with distributed generation resources provide a viable solution …
Microgrids have emerged as a practical solution to improve the power system resilience against unpredicted failures and power outages. Microgrids offer substantial benefits for …
The primary goal of a microgrid (MG) operator is to provide electricity to consumers while minimizing costs. For this aim, the operator must engage in the cost-effective management of …
Increasing the frequency of natural hazards affecting critical infrastructures such as power systems has necessitated upgrading planning and operation strategies to cope with such an …
This article deals with the stochastic scheduling of a microgrid (MG) to balance the economical and resilience metrics. In the proposed model, the MG resilience indices are …
In this paper, the applicability of Microgrids (MGs) is reviewed for power system resilience against low-probability high-impact (LPHI) events. Financial issues have been always one of …
Micro-grids provide opportunities to enhance reliability and flexibility in power systems. In recent years, resiliency of power grids has attracted many research interests. Moreover, the …
Microgrids (MG) have numerous benefits for power systems and can pave the way for the exploitation of renewable energy resources such as wind turbines and photovoltaic units as …
In recent years, natural disasters around the world have underscored the need for operative solutions that can improve the power grid resilience in response to low-probability high …