1. Bi-level economic dispatch strategy for virtual power plants based on electric vehicles aggregation.
- Author
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Guo, Jinrui, Dou, Chunxia, Zhang, Zhijun, and Yue, Dong
- Subjects
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ELECTRIC power plants , *ELECTRIC vehicle industry , *ENTROPY (Information theory) , *ELECTRICITY markets , *MARKET prices - Abstract
The rapid growth of electric vehicles (EVs) imposes great challenges to the flexible management and economic dispatch of virtual power plants. To overcome these obstacles, this paper proposes a bi-level economic dispatch strategy based on EVs aggregation. First, an aggregation method based on improved artificial bee colony Kmeans clustering algorithm is presented to aggregate the EVs with different dynamic characteristics in the upper level. Aiming at the issue that multi-parameter weights and aggregation effects are difficult to determine in the clustering process, information entropy and Silhouette metric are proposed to enhance the accuracy of clustering. Furthermore, pre-dispatch is conducted based on aggregation information and electricity market prices. Next, in the lower level, the charging demands information is utilized to formulate specific dispatch strategies for EVs users, and the pre-dispatch deviation in the upper level is modified. Finally, the simulation results show that the proposed aggregation method improves the clustering effect by 22.4% and guarantees the quality of aggregation and the flexibility of system management. Besides, the proposed strategy can reduce the total system operation cost and the computation time by 5.83% and 55.95% respectively and ensure the economy of the system operation and the computational efficiency of the dispatch. • Aggregate electric vehicles using a method based on improved Kmeans algorithm. • Formulate an allocation model considering the charging needs of users. • Construct a bi-level optimal dispatch model for developing effective dispatch plans. • The aggregation method enhances the aggregation quality than existing methods. • The flexibility of system dispatch improves through aggregating electric vehicles. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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