Energies, Vol. 18, Pages 5437: A Hierarchical Collaborative Optimization Model for Generation and Transmission Expansion Planning of Cross-Regional Power Systems Considering Energy Storage and Load Transfer

Energies, Vol. 18, Pages 5437: A Hierarchical Collaborative Optimization Model for Generation and Transmission Expansion Planning of Cross-Regional Power Systems Considering Energy Storage and Load Transfer

Energies doi: 10.3390/en18205437

Authors:
Zeming Zhao
Chunhua Li
Zengxu Wang
Tianchi Zhang
Xin Cheng

To reduce the renewable energy waste and carbon emissions predicted for the current expansion plan, this study proposes a hierarchical collaborative optimization model for the planning of generation and transmission expansion plan in cross-regional power systems considering energy storage and load transfer. In the upper layer, the upper limit of expansion is determined according to China’s current policy and expansion plan for the power system. This level completes the annual power expansion plan and provides scale data of power generation facilities and supporting infrastructures for the lower level. The lower layer is the operation level, which simulates the operation of the power system throughout the year. To find the defects of the current plan and provide an optimization scheme, the optimization model is used to analyze China’s power system in 2030. The utilization of renewable energy and power facilities is analyzed, along with the carbon emissions. An improved power expansion plan that comprehensively considers energy storage, transmission and load transfer for China’s carbon peak is proposed. The proposed scheme increases the utilization rate of renewable energy to 97.058%, reduces CO2 emissions by 224 million tons, and reduces the installed capacity of thermal power by about 18.686 million kilowatts, verifying the effectiveness of the scheme.