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dc.contributor.authorShahnia, Farhad
dc.contributor.authorChandrasensa, Ruwan
dc.contributor.authorRajakaruna, Sumedha
dc.contributor.authorGhosh, A.
dc.contributor.editorHossain, Jahangir, Mahmud, Apel
dc.date.accessioned2017-01-30T11:51:21Z
dc.date.available2017-01-30T11:51:21Z
dc.date.created2014-03-12T20:01:02Z
dc.date.issued2014
dc.identifier.citationShahnia, Farhad and Chandrasensa, Ruwan and Rajakaruna, Sumedha and Ghosh, Arindam. 2014. Interconnected autonomous microgrids in smart grids with self-healing capability, in Hossain, J. and Mahmud, A. (ed), Renewable Energy Integration, Challenges and Solutions, pp. 347-381. Singapore: Springer.
dc.identifier.urihttp://hdl.handle.net/20.500.11937/15698
dc.identifier.doi10.1007/978-981-4585-27-9_15
dc.description.abstract

In order to minimize the number of load shedding in a Microgrid during autonomous operation, islanded neighbour microgrids can be interconnected if they are on a self-healing network and an extra generation capacity is available in Distributed Energy Resources (DER) in one of the microgrids. In this way, the total load in the system of interconnected microgrids can be shared by all the DERs within these microgrids. However, for this purpose, carefully designed selfhealing and supply restoration control algorithm, protection systems and communication infrastructure are required at the network and microgrid levels. In this chapter, first a hierarchical control structure is discussed for interconnecting theneighbour autonomous microgrids where the introduced primary control level is the main focus. Through the developed primary control level, it demonstrates how the parallel DERs in the system of multiple interconnected autonomous microgrids can properly share the load in the system. This controller is designed such that the converter-interfaced DERs operate in a voltage-controlled mode following adecentralized power sharing algorithm based on droop control. The switching in the converters is controlled using a linear quadratic regulator based state feedback which is more stable than conventional proportional integrator controllers and this prevents instability among parallel DERs when two microgrids are interconnected. The efficacy of the primary control level of DERs in the system of multiple interconnected autonomous microgrids is validated through simulations consideringdetailed dynamic models of DERs and converters.

dc.publisherSpringer
dc.subjectDER
dc.subjectInterconnected microgrids
dc.subjectDSTATCOM
dc.subjectSelf-healing network
dc.subjectPower sharing
dc.titleInterconnected autonomous microgrids in smart grids with self-healing capability
dc.typeBook Chapter
dcterms.source.startPage347
dcterms.source.endPage381
dcterms.source.titleRenewable Energy Integration, Challenges and Solutions
dcterms.source.isbn978-981-4585-26-2
dcterms.source.placeSingapore
dcterms.source.chapter18
curtin.department
curtin.accessStatusFulltext not available


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