Multiagent-Based Reactive Power Sharing and Control Model for Islanded Microgrids

Feixiong Chen; Minyou Chen; Qiang Li; Kaikai Meng; Josep M. Guerrero; Derek Abbott

doi:10.1109/TSTE.2016.2539213

Multiagent-Based Reactive Power Sharing and Control Model for Islanded Microgrids

Feixiong Chen, Minyou Chen, Qiang Li, Kaikai Meng, Josep M. Guerrero, Derek Abbott

AAU Energy

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

In islanded microgrids (MGs), the reactive power cannot be shared proportionally among distributed generators (DGs) with conventional droop control, due to the mismatch in feeder impedances. For the purpose of proportional reactive power sharing, a multiagent system (MAS) based distributed control model for droop-controlled MGs is proposed.
The proposed control model consists of two layers, where the bottom layer is the electrical distribution MG, while the top layer is a communication network composed of agents. Moreover, agents on the communication network exchange the information acquired from DGs with neighbors, and calculate set points for DGs they connect to, according to the control laws. Further, a theorem is demonstrated, which yields a systematic method to derive the control laws from a given communication network.
Finally, three cases are carried out to test the performance of the control model, in which the uncertainty of intermittent DGs, variations in load demands, as well as impacts of time delays are considered. The simulation results demonstrate the eectiveness of the control model in proportional reactive power sharing, and the plug and play capability of the control model is also verified.

Original language	English
Journal	IEEE Transactions on Sustainable Energy
Volume	7
Issue number	3
Pages (from-to)	1232 - 1244
Number of pages	13
ISSN	1949-3029
DOIs	https://doi.org/10.1109/TSTE.2016.2539213
Publication status	Published - Jul 2016

Keywords

Microgrids (MGs)
Plug and play
Reactive power sharing
Distributed control
Multiagent system (MAS)

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Multiagent Based Reactive Power Sharing and Control Model for Islanded MicrogridsSubmitted manuscript, 1.89 MB

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@article{4d613ffaa6a44d54aa158cdef6b93e58,

title = "Multiagent-Based Reactive Power Sharing and Control Model for Islanded Microgrids",

abstract = "In islanded microgrids (MGs), the reactive power cannot be shared proportionally among distributed generators (DGs) with conventional droop control, due to the mismatch in feeder impedances. For the purpose of proportional reactive power sharing, a multiagent system (MAS) based distributed control model for droop-controlled MGs is proposed.The proposed control model consists of two layers, where the bottom layer is the electrical distribution MG, while the top layer is a communication network composed of agents. Moreover, agents on the communication network exchange the information acquired from DGs with neighbors, and calculate set points for DGs they connect to, according to the control laws. Further, a theorem is demonstrated, which yields a systematic method to derive the control laws from a given communication network.Finally, three cases are carried out to test the performance of the control model, in which the uncertainty of intermittent DGs, variations in load demands, as well as impacts of time delays are considered. The simulation results demonstrate the eectiveness of the control model in proportional reactive power sharing, and the plug and play capability of the control model is also verified.",

keywords = "Microgrids (MGs), Plug and play, Reactive power sharing, Distributed control, Multiagent system (MAS)",

author = "Feixiong Chen and Minyou Chen and Qiang Li and Kaikai Meng and Guerrero, {Josep M.} and Derek Abbott",

year = "2016",

month = jul,

doi = "10.1109/TSTE.2016.2539213",

language = "English",

volume = "7",

pages = "1232 -- 1244",

journal = "IEEE Transactions on Sustainable Energy",

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T1 - Multiagent-Based Reactive Power Sharing and Control Model for Islanded Microgrids

AU - Chen, Feixiong

AU - Chen, Minyou

AU - Li, Qiang

AU - Meng, Kaikai

AU - Guerrero, Josep M.

AU - Abbott, Derek

PY - 2016/7

Y1 - 2016/7

N2 - In islanded microgrids (MGs), the reactive power cannot be shared proportionally among distributed generators (DGs) with conventional droop control, due to the mismatch in feeder impedances. For the purpose of proportional reactive power sharing, a multiagent system (MAS) based distributed control model for droop-controlled MGs is proposed.The proposed control model consists of two layers, where the bottom layer is the electrical distribution MG, while the top layer is a communication network composed of agents. Moreover, agents on the communication network exchange the information acquired from DGs with neighbors, and calculate set points for DGs they connect to, according to the control laws. Further, a theorem is demonstrated, which yields a systematic method to derive the control laws from a given communication network.Finally, three cases are carried out to test the performance of the control model, in which the uncertainty of intermittent DGs, variations in load demands, as well as impacts of time delays are considered. The simulation results demonstrate the eectiveness of the control model in proportional reactive power sharing, and the plug and play capability of the control model is also verified.

AB - In islanded microgrids (MGs), the reactive power cannot be shared proportionally among distributed generators (DGs) with conventional droop control, due to the mismatch in feeder impedances. For the purpose of proportional reactive power sharing, a multiagent system (MAS) based distributed control model for droop-controlled MGs is proposed.The proposed control model consists of two layers, where the bottom layer is the electrical distribution MG, while the top layer is a communication network composed of agents. Moreover, agents on the communication network exchange the information acquired from DGs with neighbors, and calculate set points for DGs they connect to, according to the control laws. Further, a theorem is demonstrated, which yields a systematic method to derive the control laws from a given communication network.Finally, three cases are carried out to test the performance of the control model, in which the uncertainty of intermittent DGs, variations in load demands, as well as impacts of time delays are considered. The simulation results demonstrate the eectiveness of the control model in proportional reactive power sharing, and the plug and play capability of the control model is also verified.

KW - Microgrids (MGs)

KW - Plug and play

KW - Reactive power sharing

KW - Distributed control

KW - Multiagent system (MAS)

U2 - 10.1109/TSTE.2016.2539213

DO - 10.1109/TSTE.2016.2539213

M3 - Journal article

SN - 1949-3029

VL - 7

SP - 1232

EP - 1244

JO - IEEE Transactions on Sustainable Energy

JF - IEEE Transactions on Sustainable Energy

IS - 3

ER -

Multiagent-Based Reactive Power Sharing and Control Model for Islanded Microgrids

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