Abstract
The massive expansion of Distributed Energy Resources and schedulable loads have forced a variation of generation, transmission, and final usage of electricity towards the paradigm of Smart Communities microgrids and of Renewable Energy Communities. In the paper, the use of multiple DC microgrids for residential applications, i.e., the nanogrids, in order to compose and create a renewable energy community, is hypothesized. The DC Bus Signaling distributed control strategy for the power management of each individual nanogrid is applied to satisfy the power flow requests sent from an aggregator. It is important to underline that this is an adaptive control strategy, i.e., it is used when the nanogrid provides a service to the aggregator and when not. In addition, the value of the DC bus voltage of each nanogrid is communicated to the aggregator. In this way, the aggregator is aware of the regulation capacity that each nanogrid can provide and which flexible resources are used to provide this capacity. The effectiveness of the proposed control strategy is demonstrated via numerical experiments. The energy community considered in the paper consists of five nanogrids, interfaced to a common ML-LV substation. The nanogrids, equipped with a photovoltaic plant and a set of lithium-ion batteries, participate in the balancing service depending on its local generation and storage capacity.
Highlights
In the last years, the Distributed Energy Generation Resources (DG) has been interested in the integration and management issues that have led to the search for new tools and strategies control systems to transform a real utility grid into a smart grid
A DC microgrid mounted with several micro-production systems, storage systems, electric vehicles, and power/heat loads was presented in [10,11]; the power electronic interface, which joins the microgrid to the utility grid, provides the desired flexibility, power quality, and power flow at the Point of Delivery (POD)
In [20], the voltage control of the DC bus for a DC microgrid connected to the utility grid was discussed. Both considering the DC bus capacitance and the voltage of the DC bus and able to regulate the voltage of the DC bus avoiding sudden variations and reducing the distortion of the current exchanged with the utility grid. This control strategy decreases the variation of the DC bus voltage and, it is possible to have more sources connected to the DC microgrid without having to increase the capacity of the DC bus
Summary
Giuseppe Barone 1 , Giovanni Brusco 1 , Daniele Menniti 1 , Anna Pinnarelli 1, * , Nicola Sorrentino 1 , Pasquale Vizza 1 , Alessandro Burgio 2 and Ángel A. Energy Community of DC Nanogrids for Providing Balancing Services
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