Energies, Vol. 18, Pages 6203: Probabilistic Assessment of Transmission Reliability Margin for Inter-Regional Electricity Trading Incorporating Multi-Source Uncertainty
Energies doi: 10.3390/en18236203
Authors:
Xingyu Lu
Xiaogang Li
Fubin Liu
Min Wu
Yuanrui Hong
Fei Du
Shiyuan Tao
Zhenfei Tan
With the rapid transition toward a low-carbon power system, the temporal intermittency and spatial unevenness of renewable generation have imposed emerging challenges to the supply–demand balance of electricity. To enhance the secure utilization of inter-regional transmission capacity under uncertainties, this paper proposes a correlation-aware Gaussian mixture model (GMM) for probabilistic assessment of the transmission reliability margin (TRM) of interconnectors. The proposed method explicitly captures multi-source uncertainties, including renewable generation, load, and power contract execution deviation. The internal correlations among uncertain factors are embedded in the GMM to avoid the misestimation associated with independent-distribution assumptions. Simulation results on a four-region system demonstrate that the proposed method outperforms existing methods in higher accuracy and computational efficiency, which enables reliable and economic cross-regional power trading under uncertainty.