Optimal Allocation of Curtailment Level of PV Power Output in Different Regions in Consideration of the Reduction in Aggregated PV Power

N. Harag, C. Urabe, T. Kato
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Abstract

Due to the extremely high penetration of photovoltaic power generation system (PV), the power output curtailment (Cr) of PV is necessary not only to maintain supply-demand balance but also to preserve enough capacity for the frequency control. Although the Cr level for the aggregated PV in the power system service area is determined in a day-ahead unit commitment (UC) scheduling, the Cr for individual PV with different weather conditions should be allocated so that the fluctuation of aggregated PV power output is minimized. Assuming that the short-term forecasting of individual PV power output fluctuations characteristics is available, the objective of this study is to propose methods for optimal short-term allocation of Cr level among each region. The proposed methods have proven their effectiveness in meeting the predetermined average PV power ouput as well as reducing the fluctuations of the overall system.
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考虑光伏发电总量减少的不同区域光伏发电弃风水平优化配置
由于光伏发电系统(PV)的渗透率极高,光伏发电系统的输出限电(Cr)不仅是维持供需平衡的必要条件,也是为频率控制保留足够容量的必要条件。虽然在日前调度中确定了电力系统服务区聚合光伏的Cr值,但需要对不同天气条件下的单个光伏的Cr值进行分配,以使聚合光伏出力的波动最小。假设单个光伏发电输出波动特征的短期预测是可行的,本研究的目的是提出Cr水平在各个区域之间的短期最优分配方法。所提出的方法已被证明在满足预定的光伏平均输出和减少整个系统波动方面是有效的。
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来源期刊
Renewable Energy and Power Quality Journal
Renewable Energy and Power Quality Journal Energy-Energy Engineering and Power Technology
CiteScore
0.70
自引率
0.00%
发文量
147
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