1. Matching Model of Energy Supply and Demand of the Integrated Energy System in Coastal Areas.
- Author
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Zhao, Xuejiao, Gu, Bing, Gao, Fengkai, and Chen, Songsong
- Subjects
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POWER resources , *SUPPLY & demand , *COASTAL engineering , *OCEAN engineering , *OCCUPANCY rates , *CHOICE of transportation , *UNITS of time , *AVIONICS - Abstract
Zhao, X.; Gu, B.; Gao, F., and Chen, S., 2020. Matching model of energy supply and demand of the integrated energy system in coastal areas. In: Yang, Y.; Mi, C.; Zhao, L., and Lam, S. (eds.), Global Topics and New Trends in Coastal Research: Port, Coastal and Ocean Engineering. Journal of Coastal Research, Special Issue No. 103, pp. 983–989. Coconut Creek (Florida), ISSN 0749-0208. Due to the uncertainty of the selection range of the main equipment capacity of the distributed energy system in coastal areas, the matching ability of energy supply and demand is relatively low. From the two directions of "power by heat" and "heat by electricity", the operation and output modes of energy in the system are studied; the selection range of the main equipment capacity of the distributed energy system is determined by calculating the load of energy supply and demand; according to the selection range, the necessary mapping conditions of the matching relationship between energy supply and demand are analyzed, and the matching model of energy supply and demand is constructed by using the matching relationship between energy supply and demand, so as to complete the matching of energy supply and demand of the integrated energy system in coastal areas. The experimental results show that the total energy output of the integrated energy system in coastal areas reaches 1867 kJ in unit time, but the proportion occupancy rate between the output nodes is the lowest, which has a good matching ability of energy supply and demand. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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