João Pedro Carvalho Silveira scite author profile

This paper presents a power management strategy (PMS) to control the power flow in a DC microgrid operating in the grid-connected mode. The microgrid model is composed of the AC utility grid interfaced with a voltage source inverter operating as a grid-forming converter (VSC), an energy storage system (ESS) formed by a battery bank and a bidirectional DC-DC converter operating as a grid-supporting unit, a distributed generation acting as a grid-feeding unit, and the customer loads with strict voltage regulation. The power management technique applies a virtual inertia concept together with a state of charge-based management function to regulate the charging and discharging process of the battery bank according to the DC microgrid power flow. Thus, high-rate peaks of power are avoided, which improves the ESS life cycle. With the proposed PMS, an autonomous power flow is achieved inside the DC microgrid, while the AC utility grid focuses exclusively upon forming the DC bus and processing the surplus or shortage of power. In addition, the proposed strategy simplifies the communication link between the grid inverter and the ESS, since the VSC power is the sole information exchanged. The experimental results show that the proposed PMS is reliable, leading to high ESS performance and power flow control within the DC microgrid, without degrading the DC bus voltage.

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Power management techniques for grid-connected DC microgrids: A comparative evaluation

Neto

Barros

Silveira

et al. 2020

Applied Energy

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Power management of energy storage system with modified interlinking converters topology in hybrid AC/DC microgrid

Silveira

Neto

Barros

et al. 2021

International Journal of Electrical Power & Energy Systems

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Power management with BMS to modified interlinking converter topology in hybrid AC/DC microgrid

et al. 2023

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Modeling and Experimental Evaluation of Energy Storage Emulator for Microgrids Application

Filho

Silveira

Neto

et al. 2021

IEEE J. Emerg. Sel. Topics Power Electron.

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