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dc.contributor.authorAhmad, Aziz
dc.contributor.authorAnderson, T.N.
dc.contributor.authorSwain, A.
dc.contributor.authorKamran, M.
dc.description.abstractIn this study, optimal energy management for a grid-connected photovoltaic-battery hybrid system was proposed to benefit customers at the demand side. The management of energy flow aims to minimize electricity cost subject to a number of constraints. Time of use (TOU) program was developed to import electricity during off-peak hours and used it during peak hours. Simulation results for the 24- hours period showed that, for a typical Auckland household load, the optimal control approach exported 9.75 kWh more electricity to the grid and imported 4.62 kWh less electricity during winter period. Further, the proposed approach imported 5.27 kWh less electricity from the grid during summer periods than the house with no controller.en_NZ
dc.subjectbuilding energy managementen_NZ
dc.subjectenergy efficiencyen_NZ
dc.subjectphotovoltaic energy systemsen_NZ
dc.subjecthybrid energy systemsen_NZ
dc.titleActive demand side management of a grid connected photovoltaic energy system using optimal controlen_NZ
dc.typeConference Contribution - Oral Presentationen_NZ
dc.subject.marsden090605 Photodetectors, Optical Sensors and Solar Cellsen_NZ
dc.identifier.bibliographicCitationAhmad, A., Anderson, T., Swain, A., & Kamran, M. (2018, April). Active Demand Side Management of a Grid Connected Photovoltaic Energy System using optimal Control. Paper presented at the DIT–eseia Conference on Smart Energy Systems in Cities and Regions, Dublin, Ireland.en_NZ
unitec.publication.titleDIT–eseia Conference on Smart Energy Systems in Cities and Regionsen_NZ
unitec.conference.titleDIT – eseia Conference on Smart Energy Systems in Cities and Regions (2018)en_NZ
unitec.conference.orgDublin Institute of Technology (DIT)en_NZ
unitec.conference.orgeseia - european sustainable energy innovation allianceen_NZ
unitec.conference.locationDublin, Irelanden_NZ
unitec.publication.placeDublin, Irelanden_NZ

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