An optimal operation method of cascade hydro-PV-pumped storage generation system based on multi-objective stochastic numerical P systems,Journal of Renewable and Sustainable Energy

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An optimal operation method of cascade hydro-PV-pumped storage generation system based on multi-objective stochastic numerical P systems
Journal of Renewable and Sustainable Energy ( IF 1.9 ) Pub Date : 2021-02-02 , DOI: 10.1063/5.0032455
Xing Huang _{1,

2} , Jun Wang _{1,

2} , Tao Huang _{1,

3} , Hong Peng _{2,

4} , Xiaoxiao Song _{1,

2} , Sixiong Cheng _{1,

2}

Affiliation

To take full advantage of the complementary characteristics of various renewable energy sources, hybrid generation systems (HGSs) are used to accommodate the increased variability and uncertainty. In southwest China, there are many small cascade hydropower stations (CHSs) and PV power stations, which have spatial and temporal correlation characteristics and complementary characteristics. Pumped-storage units are considered as ideal large-scale energy storage elements for HGSs due to their fast response and long life. The purpose of this study is to increase the system reliability and water power utilization rate and maximize the economic benefits of a cascade hydro-PV-pumped storage (CH-PV-PS) generation system. Considering the reliability, economy, and water power utilization rate of the system, the CH-PV-PS system model with multiple objectives and multiple constraints is established. Then, a multi-objective stochastic numerical P system (MOSNP) is proposed. The external storage set and correction method in the MOSNP algorithm are introduced to ensure the diversity of the solution and improve the efficiency of the algorithm. The CH-PV-PS system is introduced in Sichuan Province, Southwest China. The simulation results show that (1) the MOSNP method can obtain robust and effective optimization results for the hybrid system; (2) the use of pumped storage units has increased the daily economy by 1018 CNY, and the total fluctuation of CHSs has been reduced by 29.3%, which makes the hybrid system safer and more economical; and (3) the uncertainty of PV and runoff will lead to frequent dispatching of CHSs, thus reducing the economic benefits of the system.

更新日期：2021-02-26

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