期刊
APPLIED ENERGY
卷 310, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.apenergy.2021.118415
关键词
Interactive CCHP system; Operation strategy; Interactive operating strategy; Heat-to-power ratio; Effect mechanisms
资金
- State Key Labo-ratory of Power System and Generation [SKLD20KM01]
- National Natural Science Foundation of China [52006009]
- Beijing Institute of Technology Research Fund Program for Young Scholars
This paper proposes an interactive operation strategy based on the energy complementarity characteristics, which greatly improves the performance of the ICCHP system through the interaction between different loads. The study also analyzes the system performance and effect mechanisms of interactive operation between different users, showing that interactive CCHP systems with different loads achieve better performance than systems with the same loads.
The interactive operation of multiple combined cooling, heating, and power (CCHP) systems can improve the performance of regional integrated energy systems by exploiting the spatiotemporal complementarity of loads. The interaction of various energy networks in the interactive combined cooling, heating, and power (ICCHP) system introduces new challenges to the optimization of the operation strategy. An interactive operation strategy based on the energy complementarity characteristics of the following electric load, following thermal load, and following hybrid electric-heating load operation strategies is proposed in this paper. To investigate the interaction effect on the system performance and the effect mechanisms when it operates interactively between different users, the load heat-to-power ratio of users was first classified and abstracted. Then, the performances of the ICCHP between two users with different loads and between two users with the same loads are analyzed separately. Finally, the effect of a third user was investigated to expand the application of the interactive operating strategy to the multi-user mode. The results showed that the interaction between CCHP systems with different loads can make use of the complementarity between different loads and the energy complementarity of operation strategies, which greatly improves the performance of the ICCHP system. CCHP systems with the same loads can only rely on the energy complementarity of the operation strategies, leading to less improvement in performance. In addition, the performance of the ICCHP system will be significantly improved in the three-CCHP interactive mode if the performance of the third building is higher in independent operation.
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