Source-grid-load-storage Robust Coordinated Planning of New-type Power System Considering Primary Frequency Response Characteristics

The proportion of renewable energy in the power system is gradually increasing, and the uncertainty brings challenges to the security and stability operation of the system. Constructing a flexible power balance system with the coordinated development of source, grid, load and storage is an important core of the new-type power system. Therefore, this paper proposes a robust planning of source-grid-load-storage coordination of a new-type power system considering the primary frequency response characteristics. Firstly, the objective function is set to minimize the sum of the equipment investment cost, the operation cost and the power imbalance penalty cost. Secondly, taking the demand response and energy storage as the alleviator for the output fluctuation of the wind and photovoltaic power stations, the operation constraints of the demand response and energy storage devices are established, forming the planning model of source-grid-load-storage coordination. Furthermore, the robust optimization method is adopted to process the uncertainty associated with the wind turbine and the photovoltaic output, and the primary frequency response characteristics of the system are modeled. Combined with the frequency stability related constraints such as the rate of the frequency changes and the frequency nadir, the frequency stability in the system operation under the uncertain scenarios is preliminarily guaranteed. Then, the model is transformed into a mixed integer linear programming problem, which is solved by the column-and-constraint generation method. Finally, the effectiveness of the proposed robust programming method is verified by numerical results. © 2023 Power System Technology Press. All rights reserved.