Microgrids: Hierarchical Control and an Overview of the Control and Reserve Management Strategies

Vandoorn, Tine L.; Vasquez, Juan C.; Kooning, Jeroen D. M. De; Guerrero, Josep M.; Vandevelde, Lieven

doi:10.1109/mie.2013.2279306

Cited by 252 publications

(167 citation statements)

References 72 publications

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“…Oversizing the converters is an expensive solution which is sometimes employed for AC systems [33]. Also, a small nanogrid in islanded operation might not be able to produce high enough short-circuit currents, even with oversized converters.…”

Section: Protectionmentioning

confidence: 99%

Toward the Universal DC Distribution System

Mackay

Blij

Ramírez-Elizondo

et al. 2017

Electric Power Components and Systems

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Section: Protectionmentioning

confidence: 99%

Toward the Universal DC Distribution System

Mackay

Blij

Ramírez-Elizondo

et al. 2017

Electric Power Components and Systems

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“…These units are also named grid-following devices, as they do not regulate the bus but rather they "follow" their frequency and/or voltage [5,7].…”

Section: Upper-level (Primary) Control Operation Modesmentioning

confidence: 99%

“…These devices share the power variations occurring in the microgrid to decrease the variations of the bus frequency/voltage [5,7].…”

Section: Upper-level (Primary) Control Operation Modesmentioning

confidence: 99%

Hybrid AC/DC Microgrid Mode-Adaptive Controls

Unamuno¹,

Barrena²

2017

Development and Integration of Microgrids

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The lack of inertial response at microgrids is usually compensated by coniguring primary controllers of converter-interfaced devices to contribute in the transient response under power disturbances. The main purpose of this chapter is to study the modes of operation of primary level techniques of generation, storage, loads, and other devices atached to hybrid ac/dc microgrids. Although the chapter includes an analysis of the modes of operation of lower-level regulators, the focus is on upper-level or primary controllers.In this context, we analyze mode-adaptive controls based on voltage and frequency levels and we evaluate their behavior by simulation in the Matlab/Simulink ® environment. The results demonstrate that mode-adaptive techniques are adequate for maximizing the energy extracted by distributed generation (DG) systems and limit demand side management actuations while ensuring an adequate regulation of the microgrid.

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“…The micro source such as wind power and photovoltaic cells, which output power is influenced by the weather, have obvious intermittent [2]. Control of microgrids becomes a critical issue for ensuring reliable operation of the microgrid and each AC and DC microgrids have different hierarchical controls, but those could be generalize into three levels by referring to the hierarchical control which are classified as follows: (1) the primary control is based on the droop method, including an output-impedance virtual loop; (2) the secondary control allows the restoration of the deviations produced by the primary control and to improve power quality via unbalance and mitigation of harmonics in network; and (3) the tertiary control manages the power flow between the microgrid (MG) and the external electrical distribution system [3]. The PQ controller and droop control should be able to control and manage power properly in both operating mode, grid-connected mode and stand-alone mode.…”

Section: Introductionmentioning

confidence: 99%

Review on the Coordination and Energy Management of Microgrids Broad Based on PQ Controller and Droop Control. Some Useful Information Is Given in This Paper

Nduwamungu¹

2017

OALib

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The integration of distributed Energy Resources (DER) is challenging electrical network quality which is the main vital and ubiquitous all over the world. Coordination and energy management of microgrids in grid connected and in islanded mode is one of solutions of distribution power quality with best reliability, and stability to ensure power system resilience. In this review, the coordination and energy management of microgrids broad based on PQ controller and droop control some useful information is given in details and analyzed. Additionally, possible structures, options and control methods of DER units are presented which is followed by the descriptions of system controls and energy management strategies. Eventually, future trends of microgrids are discuss, point out how this concept can be a key to select a best method of coordination and managing microgrids for future researchers in order to tackle some challenges based on power quality.

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Microgrids: Hierarchical Control and an Overview of the Control and Reserve Management Strategies

Cited by 252 publications

References 72 publications

Toward the Universal DC Distribution System

Toward the Universal DC Distribution System

Hybrid AC/DC Microgrid Mode-Adaptive Controls

Review on the Coordination and Energy Management of Microgrids Broad Based on PQ Controller and Droop Control. Some Useful Information Is Given in This Paper

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