摘要: 综合能源系统可结合电能、热能和氢储能等多种不同的能源，面对相同的负荷需求时，可提供多种不同的经济环保的供能方案和优化运行策略。在分析了综合能源优化系统中各种设备的基本概念后，对常见的能源生产、转换和储存设备进行数学建模。其次，将需求侧电柔性负荷、热柔性负荷等引入综合能源系统的经济优化模型中，并将氢储能系统作为热电氢耦合设备参与到能源系统的运行优化中。仿真结果表明，氢储能系统与电、热柔性负荷的参与，不仅能减少因传统化石能源所引起的环境污染问题，还能有效地减少系统的运行成本。

Abstract: Integrated energy systems can combine many different energy sources, such as electricity, heat and hydrogen storage, to provide a variety of different economical and environmentally friendly energy supply solutions and optimized operation strategies when facing the same load demand. After analyzing the basic concepts of various devices in an integrated energy optimization system, common energy production, conversion and storage devices are mathematically modeled. Secondly, demand-side electric flexible loads and thermal flexible loads are introduced into the economic optimization model of the integrated energy system, and the hydrogen storage system is involved in the optimal operation of the energy system as a thermoelectric-hydrogen coupling device. The simulation results show that the participation of hydrogen energy storage system with electric and thermal flexible loads not only reduces the environmental pollution problems caused by traditional fossil energy sources, but also effectively reduces the operating costs of the system.