Integrated energy systems are considered as an indispensable part of the pathway towards
a low-carbon sustainable future, as well as secure and reliable systems, characterised with …

The integration of advanced Information and Communication Technologies (ICTs) in the
conventional electric power grid is evolving into a Cyber-Physical Power System (CPPS) …

Permanently increasing penetration of converter-interfaced generation and renewable
energy sources (RESs) makes modern electrical power systems more vulnerable to low …

This paper develops a controlled network partitioning model to improve power grid
resilience under catastrophic events. The proposed remedial scheme relies on a mixed …

This paper introduces a novel approach to enhance the stability of islanded grids with
multiple virtual synchronous generators (VSGs) in-operation. The proposed method mainly …

A controlled splitting strategy is proposed as the last resort to determine the splitting points of
an interconnected power system before occurring a critical transition. The proposed strategy …

Understanding the future of multi-vector energy networks in the context of the transition to
net zero and the energy trilemma (energy security, environmental impact and social cost) …

The number of grid-tied inverters interfacing renewable resources, energy-storage devices,
and flexible loads in distribution networks is steadily increasing. State-space models for …

This paper proposes an approach for segmentation of power systems to prevent
uncontrolled islanding. With the development of microgrids (MGs) and increased penetration …

As bulk synchronous generators in the power grid are replaced by distributed generation
interfaced through power electronics, inertia is removed from the system, prompting …