Synchronization of power systems is not only a vital issue nowadays, but also of major
importance in the development of future smart grids where high penetration of renewable …

The ongoing energy transition requires power grid extensions to connect renewable
generators to consumers and to transfer power among distant areas. The process of grid …

We study the synchronization and stability of power grids within the Kuramoto phase
oscillator model with inertia with a bimodal natural frequency distribution representing the …

We study the effects of a high share of wind generation on the frequency fluctuations of
power grids on islands. We propose a dynamical model that includes conventional and …

The energy system is rapidly changing to accommodate the increasing number of
renewable generators and the general transition towards a more sustainable future …

The frequency constitutes a key state variable of electrical power grids. However, as the
frequency is subject to several sources of fluctuations, ranging from renewable volatility to …

In this work we suggest modeling the dynamics of power grids in terms of a two-layer
network, and we use the Italian high-voltage power grid as a proof-of-principle example. The …

We consider several topologies of power grids and analyze how the addition of transmission
lines affects their dynamics. The main example we are dealing with is a power grid that has …

A reliable supply of electricity is critical for our modern society, and any large-scale
disturbance of the electrical system causes substantial costs. In 2015, one overloaded …

Braess' paradox has been shown to appear rather generically in many systems of transport
on networks. It is especially relevant for vehicular traffic where it shows that in certain …