Cooperative Control of Multi-Master-Slave Islanded Microgrid With Power Quality Enhancement Based on Conservative Power Theory

dc.contributor.authorMortezaei, Ali
dc.contributor.authorSimoes, Marcelo Godoy
dc.contributor.authorSavaghebi, Mehdi
dc.contributor.authorGuerrero, Josep M.
dc.contributor.authorAl-Durra, Ahmed
dc.contributor.institutionColorado Sch Mines
dc.contributor.institutionAalborg Univ
dc.contributor.institutionPetr Inst
dc.contributor.institutionUniversidade Estadual Paulista (Unesp)
dc.date.accessioned2018-11-26T16:04:54Z
dc.date.available2018-11-26T16:04:54Z
dc.date.issued2018-07-01
dc.description.abstractCooperative control of power converters in a microgrid offers power quality enhancement at sensitive load buses. Such cooperation is particularly important in the presence of reactive, nonlinear, and unbalanced loads. In this paper, a multi-master-slave-based control of distributed generators interface converters in a three-phase four-wire islanded microgrid using the conservative power theory (CPT) is proposed. Inverters located in close proximity operate as a group in master- salve mode. Slaves inject the available energy and compensate selectively unwanted current components of local loads with the secondary effect of having enhanced voltage waveforms while masters share the remaining load power autonomously with distant groups using frequency droop. The close proximity makes it practical for control signals to be communicated between inverters in one group with the potential to provide rapid load sharing response for mitigation of undesirable current components. Since each primary source has its own constraints, a supervisory control is considered for each group to determine convenient sharing factors. The CPT decompositions provide decoupled current and power references in abc-frame, resulting in a selective control strategy able to share each current component with desired percentage among the microgrid inverters. Simulation results are presented to demonstrate the effectiveness of the proposed method.en
dc.description.affiliationColorado Sch Mines, Dept EECS, Golden, CO 80401 USA
dc.description.affiliationAalborg Univ, Dept Energy Technol, DK-9220 Aalborg, Denmark
dc.description.affiliationPetr Inst, Dept Elect Engn, Abu Dhabi 2533, U Arab Emirates
dc.format.extent2964-2975
dc.identifierhttp://dx.doi.org/10.1109/TSG.2016.2623673
dc.identifier.citationIeee Transactions On Smart Grid. Piscataway: Ieee-inst Electrical Electronics Engineers Inc, v. 9, n. 4, p. 2964-2975, 2018.
dc.identifier.doi10.1109/TSG.2016.2623673
dc.identifier.fileWOS:000443196400051.pdf
dc.identifier.issn1949-3053
dc.identifier.urihttp://hdl.handle.net/11449/160542
dc.identifier.wosWOS:000443196400051
dc.language.isoeng
dc.publisherIeee-inst Electrical Electronics Engineers Inc
dc.relation.ispartofIeee Transactions On Smart Grid
dc.relation.ispartofsjr2,854
dc.rights.accessRightsAcesso aberto
dc.sourceWeb of Science
dc.subjectActive power filter (APF)
dc.subjectconservative power theory
dc.subjectcooperative control
dc.subjectdistributed generation
dc.subjectfour-leg inverter
dc.subjectmicrogrid
dc.subjectpower quality improvement
dc.titleCooperative Control of Multi-Master-Slave Islanded Microgrid With Power Quality Enhancement Based on Conservative Power Theoryen
dc.typeArtigo
dcterms.licensehttp://www.ieee.org/publications_standards/publications/rights/rights_policies.html
dcterms.rightsHolderIeee-inst Electrical Electronics Engineers Inc
unesp.author.orcid0000-0001-6188-0265[3]
unesp.author.orcid0000-0002-6629-5134[5]

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