Smart City Gnosys

Smart city article details

Title Optimizing Energy Distribution And Utilization In Multi-Building Complexes Using Effective Thermal Storage Systems And Renewable Energy Sharing
ID_Doc 40799
Authors Khristina Maksudovna V.; Soujanya R.; Singh M.P.; Goyal W.; Sobti S.; Kumar H.
Year 2024
Published E3S Web of Conferences, 588
DOI http://dx.doi.org/10.1051/e3sconf/202458803009
Abstract An increase in renewable energy sources and a subsequent need for more energy-efficient construction practices have prompted efforts to optimize energy distribution networks. Various building types, including residential, hotel, and hospital structures, may benefit from solar-based integrated energy systems (SIES) that include energy-sharing mechanisms and Effective Thermal Storage Systems (ETSS). This new approach is presented in the present research. In this paper a new optimization model is proposed that consider the correlation of energy storage system with fluctuating load demands of the building (BL). This theology makes it possible for any building with high energy demand in the day to trade excess power with another building which has low demand during the same time. From the simulation we get that grid power consumption is reduced from homes by 15%, hotels by 12% and hospitals by 18% through use of energy-sharing and Energy Transfer System (ETSS). Efficient energy redistribution management also helps increase the consumption of renewable resources by 20%. The proposed method led to a cumulative increase in the overall efficiency by 12% compared to the control strategy by optimizing the energy supply and demand in various sorts of buildings. Comparing our method with the previous work clearly shows that using the proposed approach yields better energy saving and higher usage of renewable energy sources because the method takes into consideration building plan and load profile. These results serve as a foundation for integrated energy systems of a smart city solution that incorporates ETSS and energy sharing. © The Authors, published by EDP Sciences.
Author Keywords


Similar Articles

Id Similarity Authors Title Published
44583 View0.874Bayera Madessa H.; Shakerin M.; Helberg Reinskau E.; Rabani M.Recent Progress In The Application Of Energy Technologies In Large-Scale Building Blocks: A State-Of-The-Art ReviewEnergy Conversion and Management, 305 (2024)
4599 View0.857Dorahaki S.; Rashidinejad M.; MollahassaniPour M.; Pourakbari Kasmaei M.; Afzali P.A Sharing Economy Model For A Sustainable Community Energy Storage Considering End-User ComfortSustainable Cities and Society, 97 (2023)
40751 View0.856Hou L.; Tong X.; Chen H.; Fan L.; Liu T.; Liu W.; Liu T.Optimized Scheduling Of Smart Community Energy Systems Considering Demand Response And Shared Energy StorageEnergy, 295 (2024)
4202 View0.854Qayyum F.; Jamil H.; Ali F.A Review Of Smart Energy Management In Residential Buildings For Smart CitiesEnergies, 17, 1 (2024)
31909 View0.853Gökçe H.U.; Gökçe K.U.Integrated System Concept For Energy Efficient Smart Buildings And CitiesProgress in Sustainable Energy Technologies Vol II: Creating Sustainable Development (2014)
1020 View0.852Fedorczak-Cisak M.; Radziszewska-Zielina E.; Nowak-Ocłoń M.; Biskupski J.; Jastrzębski P.; Kotowicz A.; Varbanov P.S.; Klemeš J.J.A Concept To Maximise Energy Self-Sufficiency Of The Housing Stock In Central Europe Based On Renewable Resources And Efficiency ImprovementEnergy, 278 (2023)
13828 View0.852Kaminski G.; Odonkor P.Characterizing Effective Building Clusters: An Extensive Study On Diverse Cluster Composition, Distributed Energy Resource Utilization, And Energy PerformanceApplied Energy, 383 (2025)
38339 View0.851Yu M.G.; Huang B.; Ma X.; Devaprasad K.Multi-Objective Sizing And Dispatch For Building Thermal And Battery Storage Towards Economic And Environmental SynergyApplied Energy, 372 (2024)
16062 View0.851Kalani M.J.; Kalani M.Controlling The Energy Supply And Demand Of Grid-Connected Building Integrated Photovoltaics Considering Real-Time Electricity Prices To Develop More Sustainable And Smarter CitiesOptik, 300 (2024)