Smart City Gnosys

Smart city article details

Title A Smart Home Power Supervision Strategy Based On Optimal Plug-In Electric Vehicles Integration Into Smart City Context For Peak Loads Profiles Flattening
ID_Doc 4762
Authors Khemakhem S.; Rekik M.; Krichen L.
Year 2022
Published Arabian Journal for Science and Engineering, 47, 3
DOI http://dx.doi.org/10.1007/s13369-021-06315-x
Abstract The smart city is an effectual and well-organized urban center that offers a great life quality to its residents through optimal energy management strategies involved in smart homes integrating Plug- in Electric Vehicles (PEVs). This concept has an important potential to flatten the peak load power evolution as well as to increase the energy efficiency in the existing smart city. In this context, a new home power supervision strategy with the coordinated PEV integration in a smart city is proposed. The aim of this study is to manage the charging/discharging periods of PEVs parked at homes to alleviate the load demand surplus for each home during rush hours by injecting power to homes (V2H technology) on the one hand, and, to fill valley during the lower-demand hours by absorbing power from homes (H2V technology) on the other hand. This supervision strategy determines the power reference charging/discharging amount for each PEV parked at home based on its start and end time parking, its initial and desired state of charge (SOC) at the scheduled time-period and its battery capacity. Obtained simulation results of the power load curve of such residential customers highlight that the large-scale integration of coordinated PEVs might benefit the smart homes through smoothing the power load profile, thus, increasing the stability of the studied city within the smart grid framework. © 2021, King Fahd University of Petroleum & Minerals.
Author Keywords Coordinated PEV integration; Plug-in electric vehicles (PEVs); Power supervision strategy; Smart city; Smoothing


Similar Articles

Id Similarity Authors Title Published
22524 View0.878Doda D.K.; Beemkumar N.; Awasthi A.; Gautam A.K.Electric Vehicle Energy Management: Charging In Sustainable Urban Settings For Smart CitiesE3S Web of Conferences, 540 (2024)
3777 View0.875Ben Arab M.; Rekik M.; Krichen L.A Priority-Based Seven-Layer Strategy For Energy Management Cooperation In A Smart City Integrated Green TechnologyApplied Energy, 335 (2023)
58385 View0.868Ghanavati F.; Matias J.C.O.; Osório G.J.Towards Sustainable Smart Cities: Integration Of Home Energy Management System For Efficient Energy UtilizationSustainable Cities and Society, 111 (2024)
40437 View0.861Cerna F.V.; Pourakbari-Kasmaei M.; Barros R.G.; Naderi E.; Lehtonen M.; Contreras J.Optimal Operating Scheme Of Neighborhood Energy Storage Communities To Improve Power Grid Performance In Smart CitiesApplied Energy, 331 (2023)
43000 View0.86Reza Salehizadeh M.; Kubra Erenoglu A.; Sengor I.; Tascikaraoglu A.; Erdinc O.; Liu J.; Catalao J.P.S.Preventive Energy Management Strategy Before Extreme Weather Events By Modeling Evs' Opt-In PreferencesIEEE Transactions on Intelligent Transportation Systems, 25, 11 (2024)
36229 View0.86Alyami S.Management Of Diverse Smart Homes: Coordination Among Controllable Loads, Evs, And PvsEnergy Reports, 12 (2024)
40628 View0.859Fernandez V.; Pérez V.Optimization Of Electric Vehicle Charging Control In A Demand-Side Management Context: A Model Predictive Control ApproachApplied Sciences (Switzerland), 14, 19 (2024)
6568 View0.858Lam A.Y.S.Advanced Vehicle-To-Grid: Architecture, Applications, And Smart City IntegrationGreen Energy and Technology, Part F2211 (2024)
40803 View0.855Fernandez V.; Pérez V.; Roig R.Optimizing Energy Supply For Full Electric Vehicles In Smart Cities: A Comprehensive Mobility Network ModelWorld Electric Vehicle Journal, 16, 1 (2025)
737 View0.854Coelho, VN; Coelho, IM; Coelho, BN; de Oliveira, GC; Barbosa, AC; Pereira, L; de Freitas, A; Santos, HG; Ochi, LS; Guimaraes, FGA Communitarian Microgrid Storage Planning System Inside The Scope Of A Smart CityAPPLIED ENERGY, 201 (2017)