A DC Microgrid System for Powering Remote Areas

A DC Microgrid System for Powering Remote Areas

DC microgrid has been gaining popularity as solution as a more efficient and simpler power system especially for remote areas, where the main grid has yet to be built. This paper proposes a DC microgrid system based on renewable energy sources that employs decentralized control and without communica...

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Bibliographic Details
Published in:Energies (Basel) Vol. 14; no. 2; p. 493
Main Authors: Ardriani, Tri, Dahono, Pekik Argo, Rizqiawan, Arwindra, Garnia, Erna, Sastya, Pungky Dwi, Arofat, Ahmad Husnan, Ridwan, Muhammad
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-01-2021
Subjects:
Communication
DC microgrid
Decentralized control
Design
Distributed generation
Electrical loads
Electricity
Electrification
Energy
Energy sources
Energy storage
Modular equipment
Photovoltaics
power conditioner system
Power management
Prototypes
Remote regions
renewable energy
Renewable energy sources
Rural areas
scalable microgrid
Solar power
Indonesia
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Summary:DC microgrid has been gaining popularity as solution as a more efficient and simpler power system especially for remote areas, where the main grid has yet to be built. This paper proposes a DC microgrid system based on renewable energy sources that employs decentralized control and without communication between one grid point and another. It can be deployed as an individual isolated unit or to form an expandable DC microgrid through DC bus for better reliability and efficiency. The key element of the proposed system is the power conditioner system (PCS) that works as an interface between energy sources, storage system, and load. PCS consists of modular power electronics devices and a power management unit, which controls power delivery to the AC load and the grid as well as the storage system charging and discharging sequence. Prototypes with 3 kWp solar PV and 13.8 kWh energy storage were developed and adopt a pole-mounted structure for ease of transportation and installation that are important in remote areas. This paper presents measurement results under several conditions of the developed prototypes. The evaluation shows promising results and a solid basis for electrification in remote areas.
ISSN:1996-1073
1996-1073
DOI:10.3390/en14020493