Abstract
An integrated energy system interconnects multiple energies and presents a potential for economics improvement and energy sustainability, which has attracted extensive attention. However, due to the obvious volatility of energy demands, most existing integrated energy systems cannot operate in a totally self-sufficient way but interact with the upper grid frequently. With the increasingly urgent demand for energy saving and emissions reduction, renewable resources have occupied a larger and larger proportion in energy system, and at last they may be dominant in the future. Unlike conventional fossil fuel generation, the renewable resources are less controllable and flexible. To ease the pressure and guarantee the upper grid security, a more independent integrated energy system is required. Driven by that, this paper firstly reviews the optimal strategies considering both independence and benefit from perspectives of individual efforts and union efforts. Firstly, the general optimization process is summarized in terms of energy flows modelling and optimization methods to coordinate supply–demand side and realize benefit maximization. Based on that, handling with uncertainty of high-ratio renewable energy is reviewed from uncertainty modeling methods and multi-stage operation strategy perspectives to make the strategy accurate and reduce the adverse effects on the upper grid. Then, the hybrid timescale characteristics of different energy flows are explored to enhance operation flexibility of integrated energy systems. At last, the coordination among different participants is reviewed to reduce the whole adverse effect as a union. Remarks are conducted in the end of each part and further concluded in the final part. Overall, this study summarizes the research directions in operation optimization of integrated energy systems to cater for a renewable energy dominated scene to inspire the latter research.
Highlights
At present, the energy structure worldwide is dominated by primary energy, which raises a dilemma between the increasing demand and sustainable supply of limited energy resources [1]
The results showed that the production cost of the integrated energy system (IES) dropped by 20.54%, and the utility went up to 5407.02 Yuan with TOU gas pricing compared with the fixed gas pricing
Due to volatile energy demands and restricted adjustment ability internal strong couplings, most of the existing integrated energy systems are dependent on the upper grid and cause a large pressure
Summary
The energy structure worldwide is dominated by primary energy, which raises a dilemma between the increasing demand and sustainable supply of limited energy resources [1]. Since 2010, the installed capacity of renewable energy has increased at an average annual rate of 8%. In an IES, multiple energies are interconnected and converted by various coupling components to satisfy terminal demands. The correlation and complementarity among different energy flows provide potential to carry out energy storage and transformation in multiple temporal and spatial scales. To this end, the optimal operation strategy is especially critical
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