1. Simple control strategy for a PV-battery system
- Author
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Simone Barcellona, Davide De Simone, and Luigi Piegari
- Subjects
photovoltaic power systems ,dc-ac power convertors ,energy storage ,power grids ,secondary cells ,dc-dc power convertors ,dc–dc converter ,pv panel ,dc–ac converter ,ac grid ,battery pack ,dc coupled ac ,dedicated converter ,direct connection ,dc-link ,simple control strategy ,pv-battery system ,energy storage systems ,lithium-ion technology ,promising solutions ,photovoltaic plants ,correct sizing ,maximise ,pv plants ,Engineering (General). Civil engineering (General) ,TA1-2040 - Abstract
Nowadays, energy storage systems, such as batteries, are spreading in many applications. Among the kinds of batteries, the lithium-ion technology is one of the most promising solutions. Considering the photovoltaic (PV) plants, it is very important to perform a correct sizing of the battery pack to both maximise the self-consumption and minimise the total costs. In general, PV plants need a dc–dc converter to maximise the electric power that can be extracted from PV panels and a dc–ac converter to connect them to the ac grid. The battery pack can be connected in three different ways: dc coupled and ac coupled using a dedicated converter or through a direct connection on the dc-link between the dc–dc and dc–ac converters. In the present study, the last solution, without any dedicated converters, is used and a simple control strategy to both maximise the power extracted from the PV panel and regulate the charging/discharging of the battery is proposed.
- Published
- 2019
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