Zeng, R; Wang, C; Cao, Y; Hu, Y; (2023) Day-ahead Scheduling of Integrated Energy System Coupled with Liquid Air Energy Storage System. In: 2022 4th International Conference on Smart Power and Internet Energy Systems, SPIES 2022. (pp. pp. 1619-1623). IEEE: Beijing, China.

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Abstract

This paper implements scheduling optimization on an integrated energy system to utilize waste heat recovered from steel mills. The system includes liquid air energy storage system (LAES), thermal energy storage system (TES), photovoltaic (PV) power generation and thermal and electrical loads. Liquid air energy storage is used to act as electrical energy storage, and waste heat is utilized in the form of superheating the air entering the turbine to increase the round-trip efficiency of the liquid air energy storage system. Through the constructed Mixed-Integer Linear Programming (MILP) model to forecast the day-ahead scheduling scheme of the system components, scheduling results of 4 cases with different power demand are solved to discuss the impact on system cost with and without liquid air energy storage. The results show the utilization of LAES has a positive effect on reducing system costs However, the limitation of LAES' maximum output power and the constraint of thermal balance make the effect of LAES on reducing the total cost of the system limited.

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