2019
DOI: 10.1109/access.2019.2946706
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Review of Power Sharing, Voltage Restoration and Stabilization Techniques in Hierarchical Controlled DC Microgrids

Abstract: In order to overcome the problem of power generation in distributed energy, microgrid(MG) emerges as an alternative scheme. Compared with the ac microgrids, the dc microgrids have the advantages of high system efficiency, good power quality, low cost, and simple control. However, due to the complexity of the distributed generation system, the conventional droop control shows the drawbacks of low current sharing accuracy. Therefore, the improved primary control methods to enhance current sharing accuracy are sy… Show more

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Cited by 172 publications
(73 citation statements)
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References 112 publications
(148 reference statements)
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“…Wherein, the decision-making objectives of the islanded DC MGs are to preserve its operational stability and generations-demands power balance in a low-cost way, namely, economic dispatch problem (EDP) [5]. Solving the EDP is of paramount importance for MGs as it defines the optimum operating point of the MG to reduce its total generation cost (TGC) and simultaneously meet both the equality (generation-demand balance) and inequality (production limits) constraints [6]. Many optimization techniques have been conducted to solve the EDP such as analytical algorithms (e.g., dynamic programming [7] and lambda iteration method [8]) and heuristic algorithms (e.g., genetic algorithm [9] and particle swarm algorithm [10]), which are employed in a centralized way.…”
Section: A Motivation and Incitementmentioning
confidence: 99%
“…Wherein, the decision-making objectives of the islanded DC MGs are to preserve its operational stability and generations-demands power balance in a low-cost way, namely, economic dispatch problem (EDP) [5]. Solving the EDP is of paramount importance for MGs as it defines the optimum operating point of the MG to reduce its total generation cost (TGC) and simultaneously meet both the equality (generation-demand balance) and inequality (production limits) constraints [6]. Many optimization techniques have been conducted to solve the EDP such as analytical algorithms (e.g., dynamic programming [7] and lambda iteration method [8]) and heuristic algorithms (e.g., genetic algorithm [9] and particle swarm algorithm [10]), which are employed in a centralized way.…”
Section: A Motivation and Incitementmentioning
confidence: 99%
“…In addition, it is assumed that the DG works at duty cycle mode as in [21], where the duty cycle mode is proved to be better than a load-following mode, and one-hour is proposed as a good trade-off between fuel consumption and start-up frequency. The DG power p DG is limited by the maximal DG supply power P DG_MAX , as given in Equation (9). Due to the slow dynamic behavior of the DG start-up stage, the DG cannot support the microgrid until it satisfies the conditions expressed by Equation (10), which can also prevent the converter from being broken by the peak power of the DG start-up stage.…”
Section: Diesel Generator and Supercapacitormentioning
confidence: 99%
“…3.2. Case 5, 6,7,8,9,10 Case 5, case 6, case 7, case 8, case 9, and case 10 happen when ∆p is negative or p L is less than its critical load. The start-time of SC recharging is decided by soc SC .…”
Section: Case 1 2 3mentioning
confidence: 99%
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“…The review presented in [25] focuses on a wider range of topics related to DC-MGs, such as protection systems, plug and play issues and MG topologies (including multimicrogrid DC clusters). Another review, the work in [26], presents an overview of control strategies for DC-MGs and DC multi-microgrid clusters. This paper reviews communication issues in the controllers used for voltage restoration and power management.…”
Section: Introductionmentioning
confidence: 99%