J
Juan C. Vasquez
Researcher at Aalborg University
Publications - 492
Citations - 32307
Juan C. Vasquez is an academic researcher from Aalborg University. The author has contributed to research in topics: Microgrid & Voltage droop. The author has an hindex of 67, co-authored 426 publications receiving 24605 citations. Previous affiliations of Juan C. Vasquez include University of Technology, Sydney & Polytechnic University of Catalonia.
Papers
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Double-Quadrant State-of-Charge-Based Droop Control Method for Distributed Energy Storage Systems in Autonomous DC Microgrids
TL;DR: A double-quadrant state-of-charge (SoC)-based droop control method for distributed energy storage system is proposed to reach the proper power distribution in autonomous dc microgrids and the simulation results are shown to verify the proposed approach.
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Next-Generation Shipboard DC Power System: Introduction Smart Grid and dc Microgrid Technologies into Maritime Electrical Netowrks
TL;DR: In this article, a series of advanced methods in control, management, and objective-oriented optimization that would establish the technical interface enabling future applications in multiple industrial areas, such as smart buildings, electric vehicles, aerospace/aircraft power systems, and maritime power systems.
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Intelligent Distributed Generation and Storage Units for DC Microgrids - A New Concept on Cooperative Control without Communications Beyond Droop Control
TL;DR: A new decentralized strategy based on fuzzy logic that ensures stored energy balance for a low voltage dc microgrid with distributed battery energy storage systems by modifying the virtual resistances of the droop controllers in accordance with the state of charge of each energy storage unit is proposed.
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Microgrids: Hierarchical Control and an Overview of the Control and Reserve Management Strategies
Tine L. Vandoorn,Juan C. Vasquez,Jeroen D. M. De Kooning,Josep M. Guerrero,Lieven Vandevelde +4 more
TL;DR: In this article, the hierarchical control for application in microgrids is discussed, and an overview of the control strategies is given with respect to the reserve provision by the DG units, loads, and storage equipment.
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Stability Enhancement Based on Virtual Impedance for DC Microgrids With Constant Power Loads
TL;DR: A comprehensive small-signal model is derived by analyzing the interface converters in each stage of a converter-based dc microgrid, and virtual-impedance-based stabilizers are proposed to enhance the damping of dc microgrids with CPLs and guarantee the stable operation.