Multi-objective Economic Optimal Operation of Microgrid Based on Combined Cooling, Heating and Power Considering Battery Life

Multi-objective Economic Optimal Operation of Microgrid Based on Combined Cooling, Heating and Power Considering Battery Life

Combined cooling, heating and power (CCHP) microgrid can not only provide a good platform for the development and utilization of clean energy, but also greatly improve the efficiency of energy use, and can improve the quality of power supply and reduce the network loss of the system. In order to mak...

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Bibliographic Details
Main Authors: Lixia SUN, Ping JU, Jingtao BAI, Tiantian LIU
Format: Article
Language:English
Published: Editorial Department of Power Generation Technology 2020-02-01
Series:发电技术
Subjects:
combined cooling, heating and power (cchp) generation system
microgrid
economical operation
improved genetic algorithm
multi-objective optimization
energy storage
storage battery life
Online Access:https://www.pgtjournal.com/EN/10.12096/j.2096-4528.pgt.19175
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Summary:Combined cooling, heating and power (CCHP) microgrid can not only provide a good platform for the development and utilization of clean energy, but also greatly improve the efficiency of energy use, and can improve the quality of power supply and reduce the network loss of the system. In order to make the economic calculation of CCHP microgrid more in line with the actual operation conditions, this paper considered adding battery life to the economic calculation model. The multi-objective optimization model of CCHP microgrid was established considering the power generation cost and the cleanness of microgrid. The multi-objective optimization model was transformed into a single-objective optimization model by the principle of maximum satisfaction. The improved genetic algorithm was used to optimize the output of each micro-source in a day. The effects of multi-objective optimization and single-objective optimization on the output of micro-sources in the CCHP microgrid were compared and analyzed by numerical examples. The simulation results show that the multi-objective optimization model can simultaneously take into account the economic and cleanness of CCHP microgrid, and it is closer to the actual operating conditions of CCHP microgrid.
ISSN:2096-4528

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