Hybrid AC/DC-coupled charging station architecture with comprehensive hierarchical control for optimal economical operation and load variance minimization

Yu，Hang1; Liu，Man2; Shao，Ziyun1; Jian，Linni2

2022-11-01

10.1016/j.egyr.2022.08.043

Energy Reports   影响因子和分区

2352-4847

2352-4847

This paper introduced a novel hybrid AC/DC-coupled charging station architecture and corresponding hierarchical control strategy. The core element of the architecture is an integrated interlinking converter (ILC) named the energy routing unit (ERU). The ERU features multiple conversion stages, dedicated plug-and-play interfaces, and varied operation functionalities. The dual inputs of utility sources enhance the reliability of the power supply. The contained scalable charging module facilitates the DC fast charging via DC grids directly, and the traditional AC slow charging is also accommodated in this architecture. Regarding the architecture, a comprehensive hierarchical control strategy containing the local-level short-timescale transient control and upper-level long-timescale optimal power scheduling is proposed. The multi-objective optimization concerning the optimal economical operation and minimum load variance is incorporated into the upper-level power flow control. The detailed simulation cases demonstrate that the stable operation of the proposed architecture could be realized, and the desirable economical operation and low peak-to-valley load variance are to be implemented simultaneously. The enabled vehicle-to-vehicle (V2V) power coordination achieves mutual power support between AC and DC subgrids and increases the local consumption of renewable energy sources effectively.

Charging station Electric vehicles (EVs) Hierarchical control Multi-objective optimization Vehicle-to-grid (V2G)

SCI ; EI

英语

其他

Department of Education of Guangdong Province[2020ZDZX3002];Guangzhou Municipal Science and Technology Project[202102010416];

Energy & Fuels

Energy & Fuels

WOS:000865597700045

ELSEVIER

20223512627215

Charging (batteries) ; Electric load flow ; Electric power system control ; Electric power transmission networks ; Renewable energy resources ; Two term control systems ; Vehicle-to-grid

Energy Resources and Renewable Energy Issues:525.1 ; Secondary Batteries:702.1.2 ; Electric Power Systems:706.1 ; Electric Power Transmission:706.1.1 ; Control Systems:731.1 ; Control System Applications:731.2 ; Optimization Techniques:921.5

2-s2.0-85136248319

Scopus

1.School of Electronics and Communication Engineering,Guangzhou University,Guangzhou,510006,China
2.Department of Electrical and Electronic Engineering,Southern University of Science and Technology,Shenzhen,518055,China

Yu，Hang,Liu，Man,Shao，Ziyun,et al. Hybrid AC/DC-coupled charging station architecture with comprehensive hierarchical control for optimal economical operation and load variance minimization[J]. Energy Reports,2022,8:876-885.

Yu，Hang,Liu，Man,Shao，Ziyun,&Jian，Linni.(2022).Hybrid AC/DC-coupled charging station architecture with comprehensive hierarchical control for optimal economical operation and load variance minimization.Energy Reports,8,876-885.

Yu，Hang,et al."Hybrid AC/DC-coupled charging station architecture with comprehensive hierarchical control for optimal economical operation and load variance minimization".Energy Reports 8(2022):876-885.