Pierluigi Mancarella

TL;DR: In this article, the authors introduce an original methodology to analyze different power-to-gas (P2G) processes and assess their operational impacts on both electricity and gas transmission networks, using a novel integrated model specifically developed for the simulation of operational interdependences between the two networks considering P2G.

TL;DR: A novel sequential Monte-Carlo-based time-series simulation model is introduced to assess power system resilience and the concept of fragility curves is used for applying weather- and time-dependent failure probabilities to system's components.

TL;DR: In this paper, a fragility model of individual components and then of the whole transmission system is built for mapping the real-time impact of severe weather, with focus on wind events, on their failure probabilities.

TL;DR: In this paper, the authors present a comprehensive and general optimization-based home energy management controller, incorporating several classes of domestic appliances including deferrable, curtailable, thermal, and critical ones, to reduce the consumer's electricity bill whilst minimizing the daily volume of curtailed energy, and therefore considering the user's comfort level.

TL;DR: This paper provides an introduction to the fundamental concepts of power systems resilience and to the use of hardening and smart operational strategies to improve it, and introduces the resilience trapezoid as visual tool to reflect the behavior of a power system during a catastrophic event.