微电网
储能
可再生能源
能量平衡
能量(信号处理)
功率(物理)
抽蓄发电
功率平衡
间歇式能源
计算机科学
控制理论(社会学)
电力系统
发电
环境科学
可用能量
高效能源利用
汽车工程
分布式发电
计算机数据存储
能量回收
节能
分解
热能储存
能量流
电网储能
能源
电力系统仿真
可靠性工程
工程类
作者
Mingze Zhang,Fenghua Huang,Minhao Xia,Yunliang Qi,Shenghui Hua,Jin Tan,Shunfu Lin
标识
DOI:10.1109/icpet66029.2025.11160354
摘要
Renewable energy exhibits significant fluctuations with multi-time scales, including long-term fluctuations and short-term intra-day fluctuations. To mitigate these fluctuations, this study proposes an optimal configuration method for long- and short-term energy storage in microgrid with multi-timescale power and energy balances. First, the daily power balance with hourly operation and the annual energy balance with daily operation models are modeled. Then, a two-stage optimal planning model is developed for the microgrids with long- and short-term energy storage, where the first stage optimizes the energy capacity of long-term energy storage, and the second stage configures the power capacity of long-term energy storage and the capacity of short-term energy storage. Furthermore, an improved Benders decomposition algorithm is used to address high-dimensional computational challenges. Case studies verify that the proposed method can optimize energy storage configuration at an 8760-hour scale. The decoupled configuration significantly reduces system costs, demonstrating both effectiveness and economic efficiency.
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