Journal of Shanghai Jiao Tong University ›› 2022, Vol. 56 ›› Issue (10): 1308-1316.doi: 10.16183/j.cnki.jsjtu.2021.409

• New Type Power System and the Integrated Energy • Previous Articles     Next Articles

Two-Stage Optimal Schedule of Offshore Wind-Power-Integrated Multi-Microgrid Considering Uncertain Power of Sources and Loads

LU Qiuyu(), YU Zhen, YANG Yinguo, LI Li   

  1. Electric Power Dispatching and Control Center, Guangdong Power Grid Co., Ltd., Guangzhou 510060, China
  • Received:2021-10-14 Online:2022-10-28 Published:2022-11-03

Abstract:

Considering the high-randomness and the low-economic-benefit characteristics of the offshore wind-power-integrated multi-microgrid, a two-stage optimal scheduling method considering the uncertain power of source and load is proposed to improve the operation profits of offshore wind-power-integrated multi-microgrid. The proposed two-stage optimal scheduling method consists of a day-ahead stage and an hour-ahead stage. In the day-ahead stage, the proposed method is based on the forecast data of the wind power and the load demand, which considers the distribution characteristics of the prediction errors. A stochastic optimization model is established to determine the unit committee of the diesel generators and the state-of-charge of the battery storages, so as to maximize the expected daily operation income. A deterministic optimization model is established based on the decisions from the day-ahead optimization relying on the hour-ahead forecast data of the wind power output and load demand. By optimizing the power of the diesel generators, wind turbines and battery energy storages, the operation income of each hour is maximized. Finally, a simulation model is established to verify the proposed method based on the prediction data of sources and loads in wind-power-integrated multi-microgrid. The simulation results show that compared with the conventional schedule strategies, the proposed two-stage optimal scheduling method can achieve a higher income and a higher overall consumption rate of the wind power.

Key words: offshore wind-power-integrated multi-microgrid, two-stage optimal scheduling, stochastic optimization, unit committee, battery energy storage

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