Abstract
With the rapid development of renewable energy technologies, islanded DC microgrids have received extensive attention in the field of distributed power generation due to their plug-and-play, flexible operation modes and convenient power conversion, and are likely to be one of the mainstream structures of microgrids in the future. The islanded DC microgrid contains multiple distributed power generation units. The battery energy storage system (BESS) is the main controlled unit used to smooth power fluctuations. The main parameter of concern is the state of charge (SOC). In order to maintain the stability of the microgrid, this paper takes the islanded DC microgrid as the research object and designs a control strategy based on the SOC of the BESS. Additionally, in the control strategy, the BESS’s energy balance control strategy and the microgrid’s operation control strategy are emphatically designed. The designed BESS control strategy adjusts the droop coefficient in real time according to the SOC of the battery energy storage unit (BESU), and controls the charge and discharge power of the BESU to achieve the SOC balance among the BESUs. The microgrid operation control strategy takes the energy storage system (ESS) as the main controlled unit to suppress power fluctuations, and distributes the power of distributed power sources according to the SOC of the BESS to achieve power balance in the microgrid, and control the DC bus voltage fluctuation deviation within 4.5%.
Highlights
The control strategy of an islanded DC microgrid is researched, and the control strategy of islanded DC microgrid based on state of charge (SOC) of energy storage system (ESS) is designed
The islanded DC microgrid simulation model was built, and different microgrid operating modes were simulated in MATLAB/Simulink
The results of the simulation show that the ESS control strategy based on the SOC of the energy storage unit (ESU) designed in this paper can complete the SOC balance among the ESUs
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. In order to maintain the stability of the DC bus voltage, it is necessary to comprehensively consider the operating conditions of each distributed unit in the DC microgrid, and use the corresponding control strategy to coordinate and control its operation, to ensure completely stable and efficient operation of microgrid system. Proposed a distributed adaptive droop control strategy for the problem of bus voltage drop caused by traditional droop control [24] This strategy completes bus voltage regulation and power distribution among distributed energy sources, and reduces the fluctuation of the bus voltage to a certain extent. The designed control strategy of the BESS completes the SOC balance among the BESUs. The designed microgrid operation control strategy completes the power balance in the microgrid, and the DC bus voltage is stabilized. Electronics 2021, 10, x FOR PEER REVIEW operation control strategy completes the power balance in the microgrid, and the DC bus voltage is stabilized.
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