Secondary-Frequency and Voltage-Regulation Control of Multi-Parallel Inverter Microgrid System

Dong, Jiawei; Gong, Chunyang; Bao, Jun; Zhu, Lihua; Hou, Yuanjun; Wang, Zhixin

doi:10.3390/en15228533

Cited by 3 publications

(2 citation statements)

References 107 publications

(168 reference statements)

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“…Malicious hackers pose a threat to MGs from both internal and external sources [16]. Many studies have been conducted on this topic, considering factors such as communication security, robustness, and economic considerations [17,18]. The techniques obviate the necessity of information sharing among DGs, with each DG's controller being exclusively developed using its own localized information.…”

Section: Introductionmentioning

confidence: 99%

Optimized Distributed Cooperative Control for Islanded Microgrid Based on Dragonfly Algorithm

Al-dulaimi,

Kurnaz

2023

Energies

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This study introduces novel stochastic distributed cooperative control (SDCC) in the context of island microgrids (MGs). A proportional resonant (PR) controller and virtual impedance droop control in stationary reference frames are employed in cooperation with distributed averaging secondary control optimized by the dragonfly algorithm (DA). The suggested approach demonstrates the capability to achieve mean-square synchronization for the voltage and frequency restoration of distributed generators (DGs) to ensure efficient active power sharing. Therefore, a sparse communication network has been used to avoid data congestion and reduce the need for extensive communication and information exchange. The proposed system offers an instinctive compromise between voltage regulation and reactive power sharing. A conventional centralized secondary control with PR droop control is simulated for performance evaluation and comparison purposes. In this study, empirical evidence is demonstrated to support the MG’s ability to confront communication failure and its ability to work reliably during plug-and-play operations.

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Section: Introductionmentioning

confidence: 99%

Optimized Distributed Cooperative Control for Islanded Microgrid Based on Dragonfly Algorithm

Al-dulaimi,

Kurnaz

2023

Energies

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“…In recent dec ades, microgrid technologies, architectures and control strategies have been extensively researched to increase their reliability and scalability. These ongoing research efforts can be grouped into the following categories: hierarchical control loops and architectures [1][2][3][4][5][6], microgrid clusters and multi-microgrids [7][8][9], integration and management of energy storage systems [10][11][12][13][14][15] and peer-to-peer energy trading and new roles for prosumers [16,17].…”

Section: Introductionmentioning

confidence: 99%

New Horizons for Microgrids: From Rural Electrification to Space Applications

2023

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The microgrid concept has evolved from the humble origins of simple remote electrification applications in rural environments to complex architectures. Microgrids are key enablers to the integration of higher penetrations of renewables in the energy sector (including electricity, heating, cooling, transport and industry). In addition to the local energy sources, energy storage systems and loads, the modern microgrid encompasses sophisticated energy and power management systems, peer-to-peer energy markets and digital technologies to support this energy transition. The microgrid concept has recently been applied to all energy sectors, in order to develop solutions that address pressing issues related to climate change and the decarbonization of these important sectors. This paper initially reviews novel applications in which the microgrid concept is being applied, from a detailed analysis of recent literature. This consists of a comprehensive analysis of the state of the art in shipboard microgrids, port microgrids, aircraft microgrids, airport microgrids and space microgrids. Future research directions are then presented, based on the authors’ perspectives on pushing the boundaries of microgrids further.

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Voltage stability control strategies for microgrids under extreme conditions in the electricity market

Liu,

Li,

et al. 2024

2024 3rd International Conference on Energy, Power and Electrical Technology (ICEPET)

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Secondary-Frequency and Voltage-Regulation Control of Multi-Parallel Inverter Microgrid System

Cited by 3 publications

References 107 publications

Optimized Distributed Cooperative Control for Islanded Microgrid Based on Dragonfly Algorithm

Optimized Distributed Cooperative Control for Islanded Microgrid Based on Dragonfly Algorithm

New Horizons for Microgrids: From Rural Electrification to Space Applications

Voltage stability control strategies for microgrids under extreme conditions in the electricity market

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