Adriana Mar scite author profile

One of the most critical infrastructures in the world is electrical power grids (EPGs). New threats affecting EPGs, and their different consequences, are analyzed in this survey along with different approaches that can be taken to prevent or minimize those consequences, thus improving EPG resilience. The necessity for electrical power systems to become resilient to such events is becoming compelling; indeed, it is important to understand the origins and consequences of faults. This survey provides an analysis of different types of faults and their respective causes, showing which ones are more reported in the literature. As a result of the analysis performed, it was possible to identify four clusters concerning mitigation approaches, as well as to correlate them with the four different states of the electrical power system resilience curve.

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An Application to Improve Smart Heritage City Experience

Mar

Monteiro

Pereira

et al. 2018

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Smart Tourism Routes Based on Real Time Data and Evolutionary Algorithms

Amorim

Mar

Monteiro

et al. 2018

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Energy Community Flexibility Solutions to Improve Users’ Wellbeing

2021

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Energy communities, mostly microgrid based, are a key stakeholder of modern electrical power grids. Operating a microgrid based energy community is a challenging topic due to the involved uncertainties, complexities and often conflicting objectives. The aim of this paper is to present a novel methodology demonstrating that energy community flexibility can contribute to each community member’s wellbeing when a grid fault occurs. A three-house energy community will be modelled considering as consumption sources non-controllable and controllable devices in each house. As power supply sources, PV systems installed in a community’s houses are considered, as well as the power obtained from main grid. Each house’s flexibility inside the community will be studied to improve the management of loads during a fault occurrence. Moreover, three different scenarios will be considered with different available power in the community. With these simulations, it was possible to understand that houses’ energy flexibility can be used under a fault situation, either to maintain the users’ wellbeing or to change the energy flow. Furthermore, energy flexibility can be used to create better energy price markets, to improve the resilience of the grid, or even to consider electrical vehicles’ connection to a community’s grid.

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Adriana Mar

A Survey on Power Grid Faults and Their Origins: A Contribution to Improving Power Grid Resilience

An Application to Improve Smart Heritage City Experience

Smart Tourism Routes Based on Real Time Data and Evolutionary Algorithms

Energy Community Flexibility Solutions to Improve Users’ Wellbeing

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