Affiliation:
1. School of Water Conservancy and Transportation, Zhengzhou University, Zhengzhou 450001, China
2. Energy Storage & New Battery Business Unit, BYD Automotive Industry Co., Ltd., Shenzhen 518118, China
Abstract
In the high-proportion hydropower market, the fairness of the execution of traded electricity and clean energy consumption are two issues that need to be considered in medium- and long-term dispatching. Aiming at the fairness of medium- and long-term optimal dispatching of hydropower-dominated grids and the problem of water abandonment in the power market environment, this paper proposes a medium- and long-term optimal dispatching method for hydropower-dominated grids based on the information gap decision-making theory (IGDT). Firstly, IGDT is used to establish a two-layer model of medium- and long-term optimal dispatching that considers runoff uncertainty, in which the lower layer solves the maximum value of the maximum difference in the contract power completion rate of the power stations, and the upper layer solves the maximum fluctuation range of the interval inflow. Then, a mixed-integer linear programming (MILP)-based single-layer optimization model is obtained through a variety of linearization techniques, and the model is solved via the CPLEX solver (version 12.10.0). The medium- and long-term optimal dispatching of 10 thermal power stations and 22 hydropower stations in Yunnan Power Grid, China, is taken as an example to verify the proposed model. The results show that the maximum difference in the contracted electricity completion rate of each power station is 0.412, and the amount of abandoned hydropower is reduced by 81.33% compared to when the abandoned water penalty function is not considered. It is proved that the proposed model can effectively alleviate the problems of excessive power generation, insufficient power generation and large-scale hydropower abandonment, which are of great significance for realizing the fair dispatching of hydropower-dominated power grids and promoting clean energy consumption in the market environment.
Funder
National Natural Science Foundation of China
Reference36 articles.
1. Rousseau, J.-F., and Habich Sobiegalla, S. (2021). Introduction: Southwest China’s Hydropower Expansion and Why It Matters There and Beyond. The Political Economy of Hydropower in Southwest China and Beyond, Springer International Publishing.
2. IHA (2021, June 11). Hydropower Status Report. Available online: https://www.hydropower.org/publications/2021-hydropower-status-report.
3. China’s large-scale hydropower system: Operation characteristics, modeling challenge and dimensionality reduction possibilities;Feng;Renew. Energy,2020
4. Development and Reform Commission, Energy Bureau (2020). Circular on the Issuance of the Basic Rules for Medium and Long-Term Transactions of Electric Power, Bulletin of the State Council of the People’s Republic of China.
5. (2020, December 12). National Development and Reform Commission, National Energy Administration, Notice on Signing Long-Term Electric Power Contracts in 2021, Available online: https://www.ndrc.gov.cn/xwdt/tzgg/202012/t20201202_1252095.html.