Advanced Energy and Sustainability Research, Год журнала: 2024, Номер unknown

Опубликована: Сен. 26, 2024

Climate change and extreme weather events impose urgent necessities on distributed energy systems with flexibility resilience to survive the district power supply systems. Compared centralized systems, show more superiorities in shifting, fast demand response, regional allocations, so on. However, electrification transformation‐ enabled flexible sharing, smart integration, advanced management are still their infancy stages, unsolved but issues, like large‐scale system planning optimization, trading pricing mechanisms, In this study, energy‐sharing economy renewable integration communities has been comprehensively reviewed. The “source–grid–load–storage” framework implemented complex relationships among supply–storage–transmission–distribution chain. Roles of sustainability have provided. Considering widely installed optimization platforms tools provided guide distributed/centralized accurate capacity sizing. Results showed that, multi‐directional interactions buildings E‐mobility spatiotemporal sharing grids enable high penetration, reliability, etc. Unlike traditional fossil fuel‐based plants, renewable‐supported (like BIPVs, electric vehicles, etc.) emerging for response survivals. include Electricity market liberalization can incentivize multi‐stakeholders’ proactivity vitality microgrids. Dynamic shared is dependent supply–demand relationship, cost–benefit allocations different stakeholders need be investigated justice fairness. To avoid performance over or underestimations, approaches highly necessary optimization. Research results pave paths upcoming studies urban planning, design, efficiency low carbon emissions through joint collaborations from economically incentivized participators.

Язык: Английский