PEDF (photovoltaic,energy storage,direct current,and flexibility) is an important support for the new power system to achieve zero carbon electricity in buildings.To mitigate the high initial investment costs of crucial equipment in the early stage of system design,and to enhance power supply reliability,an improved energy valley optimization (EVO) algorithm for designing the capacity allocation of crucial equipment in PEDF systems for civil buildings is proposed,from the comprehensive perspectives of system economics,low carbon operation,and safety control.Simulation results are compared with those obtained from the Grey Wolf and traditional EVO algorithms.The results demonstrate that the improved EVO algorithm yields superior configuration results and faster convergence when applied to optimizing equipment capacity allocation in PEDF systems.These findings validate the effectiveness and feasibility of the proposed method,offering valuable insights for selecting crucial equipment capacities in PEDF systems for civil buildings.
关键词
建筑光储直柔系统/容量配置/改进能量谷算法
Key words
building photovoltaic/energy storage,direct current and flexibility system/capacity allocation
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