Ricerc@Sapienza

Considering the complexity of controller systems in and also managing a microgrid (MGs), using automation systems can be an effective step in increasing energy efficiency, high reliability, as well as economic and environmental issues. In order to achieve these goals, this paper presents a comprehensive testbed for control and energy management in MG lab project is called LAMBDA MG in Sapienza University of Rome. The MG is composed of several sources (Photovoltaic, Storage, Emergency Generator Set) a smart switchboard and loads (lights, HVAC, plugs).

The aim of this paper is the study of the conversion of a traditional internal combustion engine-powered leisure boat into an electric propelled type. The study focused primarily on the implementation of a Battery Energy Storage System (BESS), with the intention of making it modular to simplify installation and maintenance operations. The economic and commercial aspect of the new electric boat was also explored. The boat selected for the study is located in the Porto Romano shipyard in Fiumicino.

Power stability based on energy storage systems to share the load between distributed generations (DG) in island mode is the main issue in the microgrids (MGs). Stability is an important component in energy management and planning of MG. At the first part of this article, definitions and stability issues classification are presented. In this article, power control based on active power method is analyzed. MG system control due to stability improvement in islanding mode (autonomous mode) after fault occurrence at the upstream network are been studying.