面向100%可再生能源的混合综合能源系统风险感知随机调度

Risk-Aware Stochastic Scheduling of Hybrid Integrated Energy Systems With 100% Renewables

IEEE Transactions on Engineering Management · 2023
被引 16
ABS 3

中文导读

针对100%可再生能源的混合综合能源系统,提出一种基于信息缺口决策理论的风险感知随机调度框架,在技术经济环境目标下平衡多能交互,发现风险规避策略使能源成本增加43.68%。

Abstract

Recently, ambitious endeavors have been carried out to facilitate the transition from traditional grids to hybrid interconnected energy networks in the form of grid modernization. In alignment with such efforts, this article aims at developing a novel framework for satisfying techno-economic-environmental goals in the grid modernization process. To this end, a detailed examination is conducted for the optimal exploitation of energy hubs (EHs) equipped with 100% renewables to pursue the environmental goal alongside intending technical and economic constraints. The energy conversion technology is adopted to enable the power-to-gas system for establishing multienergy interactions among electricity and gas networks. Fully benefiting from renewable units has exposed the system to uncertain fluctuations that necessitate the modeling of uncertainties to achieve near-reality results. Hence, risk-averse and seeker strategies are developed based on robustness and opportunistic modes of the information gap decision theory method to deal with stochastic fluctuations of uncertain parameters. The integrated electricity and gas test system is considered to analyze the applicability of the proposed framework in modeling efficient multienergy interactions. Given the obtained results, 43.68% more energy cost is reached for EHs when they adopted a robust strategy against uncertainties under the risk-averse strategy. Moreover, the proposed framework procured a rational decision-making model for balancing multienergy in the hybrid energy grid with 100% renewables.

可再生能源综合能源系统电力系统调度风险管理信息缺口决策理论