Optimal Energy Management Strategy of Battery Energy Storage for Primary Frequency Control

机译：用于一次频率控制的电池能量存储的最佳能量管理策略

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In order to maximize the economic benefit within battery life span, it's necessary to weigh the operating costs and profits for battery energy storage systems (BESSs) under primary frequency control (PFC) market mechanism. We reveal that the sequential decision of energy management is essentially a controlled Markov process. Therefore, we describe the dynamic transfer of PFC demand sequence using Continuous-time Markov chain, and characterize the dynamic degradation of battery capacity based on lifecycle throughput, then build an expected economic benefit-maximizing Markov decision process model. Approximating expectation forward dynamic programming algorithm is applied to solve the curses of dimensionality. Our results suggest that BESSs can achieve much larger economic benefit using dynamic threshold structure optimal energy management strategy.

机译：为了在电池使用寿命内最大化经济效益，必须权衡在主频率控制（PFC）市场机制下的电池储能系统（BESS）的运营成本和利润。我们揭示了能源管理的顺序决策本质上是受控的马尔可夫过程。因此，我们使用连续时间马尔可夫链描述了PFC需求序列的动态转移，并基于生命周期吞吐量表征了电池容量的动态退化，然后建立了预期经济利益最大化的马尔可夫决策过程模型。应用近似期望正向动态规划算法求解维数的诅咒。我们的结果表明，使用动态阈值结构最佳能源管理策略，BESS可以实现更大的经济效益。

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《IEEE International Conference on Energy Internet》|2019年|98-103|共6页
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Kerui Wen; Mingze Zhang; Jianhua Li; Jiaxin Sui; Wen Xu; Weidong Li;
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Energy management; Batteries; Markov processes; Economics; Frequency control; Degradation; Aerospace electronics;

机译：能源管理;电池;马尔可夫过程;经济;频率控制;性能下降;航空电子;

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Optimal Energy Management Strategy of Battery Energy Storage for Primary Frequency Control

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