Monica Alonso scite author profile

Transportation electrification has become an important issue in recent decades and the large scale deployment of electric vehicles (EVs) has yet to be achieved. The smart coordination of EV demand addresses an improvement in the flexibility of power systems and reduces the costs of power system investment. The uncertainty in EV drivers' behaviour is one of the main problems to solve to obtain an optimal integration of EVs into power systems. In this paper, an optimisation algorithm to coordinate the charging of EVs has been developed and implemented using a Genetic Algorithm (GA), where thermal line limits, the load on transformers, voltage limits and parking availability patterns are taken into account to establish an optimal load pattern for EV charging-based reliability. This methodology has been applied to an existing residential low-voltage system. The results indicate that a smart charging schedule for EVs leads to a flattening of the load profile, peak load shaving and the prevention of the aging of power system elements.

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Hierarchical and distributed control concept for distribution network congestion management

Kulmala

Alonso

Repo

et al. 2017

IET Generation, Transmission & Distribution

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Congestion management is one of the core enablers of smart distribution systems where distributed energy resources are utilised in network control to enable cost-effective network interconnection of distributed generation (DG) and better utilisation of network assets. The primary aim of congestion management is to prevent voltage violations and network overloading. Congestion management algorithms can also be used to optimise the network state. This study proposes a hierarchical and distributed congestion management concept for future distribution networks having large-scale DG and other controllable resources in MV and LV networks. The control concept aims at operating the network at minimum costs while retaining an acceptable network state. The hierarchy consists of three levels: primary controllers operate based on local measurements, secondary control optimises the set points of the primary controllers in real-time and tertiary control utilises load and production forecasts as its inputs and realises network reconfiguration algorithm and connection to the market. Primary controllers are located at the connection point of the controllable resource, secondary controllers at primary and secondary substations and tertiary control at the control centre. Hence, the control is spatially distributed and operates in different time frames.

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Integration of renewable energy sources in smart grids by means of evolutionary optimization algorithms

Alonso

Amarís

Alvarez-Ortega

2012

Expert Systems with Applications

106

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Coordinated reactive power management in power networks with wind turbines and FACTS devices

Amarís

Alonso

2011

Energy Conversion and Management

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Voltage stability in distribution networks with DG

Alonso

Amarís

2009

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Monica Alonso

Optimal Charging Scheduling of Electric Vehicles in Smart Grids by Heuristic Algorithms

Hierarchical and distributed control concept for distribution network congestion management

Integration of renewable energy sources in smart grids by means of evolutionary optimization algorithms

Coordinated reactive power management in power networks with wind turbines and FACTS devices

Voltage stability in distribution networks with DG

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