Open AccessProbability constrained optimisation model for transmission expansion planning considering the curtailment of wind power
Author(s) -
Liu Dundun,
Cheng Haozhong,
Lv Jiawei,
Fu Yesheng,
Zhang Jianping
Publication year - 2019
Publication title -
the journal of engineering
Language(s) - English
Resource type - Journals
ISSN - 2051-3305
DOI - 10.1049/joe.2018.9262
Subject(s) - mathematical optimization , flexibility (engineering) , sensitivity (control systems) , computer science , wind power , transmission (telecommunications) , relaxation (psychology) , power (physics) , mathematics , engineering , statistics , psychology , telecommunications , social psychology , physics , quantum mechanics , electronic engineering , electrical engineering
The curtailment of wind power has caused huge economic losses and needs to be considered on the stage of transmission expansion planning (TEP). Based on the superquantile theory, the authors use the buffered failure probability to handle the events of wind power curtailment. This new measurement offers several advantages including clear concept, simple calculation, and flexibility. Moreover, the authors form a novel convex relaxation model of the TEP problem. A tri‐level approximation algorithm is developed to solve the proposed probability constrained model. The numerical study verifies the performance of the proposed algorithm and demonstrates the advantages of the proposed model over deterministic TEP. Sensitivity analysis is performed to identify the influence of different thresholds in probability constrained TEP problem.