Multi-period Two-stage Robust Optimization of Radial Distribution System with Cables Considering Time-of-use Price

Zhang Jian; Cui Mingjian; He Yigang; Li Fangxing

DOI:10.35833/MPCE.2021.000283


Multi-period Two-stage Robust Optimization of Radial Distribution System with Cables Considering Time-of-use Price



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Author: Jian Zhang¹, Mingjian Cui², Yigang He³, Fangxing Li²
Author Affiliation: 1.School of Electrical Engineering and Automation, Hefei University of Technology, Hefei 230009, China 2.University of Tennessee, Knoxville, TN 37996, USA 3.School of Electrical Engineering and Automation, Wuhan University, Wuhan 430072, China
Foundation:	This work was supported in part by the Fundamental Research Funds for the Central Universities of China (No. PA2021GDSK0083), in part by the State Key Program of National Natural Science of China (No. 51637004), and in part by the National Key Research and Development Plan “Important Scientific Instruments and Equipment Development” (No. 2016YFF0102200).

Abstract:	In the existing multi-period robust optimization methods for the optimal power flow in radial distribution systems, the capability of distributed generators (DGs) to regulate the reactive power, the operation costs of the regulation equipment, and the current of the shunt capacitor of the cables are not considered. In this paper, a multi-period two-stage robust scheduling strategy that aims to minimize the total cost of the power supply is developed. This strategy considers the time-of-use price, the capability of the DGs to regulate the active and reactive power, the action costs of the regulation equipment, and the current of the shunt capacitors of the cables in a radial distribution system. Furthermore, the numbers of variables and constraints in the first-stage model remain constant during the iteration to enhance the computation efficiency. To solve the second-stage model, only the model of each period needs to be solved. Then, their objective values are accumulated, revealing that the computation rate using the proposed method is much higher than that of existing methods. The effectiveness of the proposed method is validated by actual 4-bus, IEEE 33-bus, and PG 69-bus distribution systems.
Keywords:	Distribution system ; robust optimization ; mixed-integer second-order cone programming ; cost of regulation equipment ; coordinated optimization of active and reactive power

Received:May 13, 2021 Online Time:2023/01/28



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