Two-stage intelligent planning with improved artificial bee colony algorithm for a microgrid by considering the uncertainty of renewable sources

被引:0
|
作者
Saeed, Muhammad Hammad [1 ]
Fangzong, Wang [1 ]
Salem, Sultan [2 ]
Khan, Yousaf Ali [3 ]
Kalwar, Basheer Ahmad [1 ]
Fars, Ashk [4 ]
机构
[1] China Three Gorges Univ, Coll Elect Engn & New Energy, Res Ctr Microgrid New Energy, 8 Daxue Rd, Yichang 443002, Hubei, Peoples R China
[2] Univ Birmingham, Birmingham Business Sch BBS, Dept Econ, Birmingham, W Midlands, England
[3] Hazara Univ Mansehra, Dept Math & Stat, Mansehra 23010, Pakistan
[4] Sunlife Co, Elect & Elect Engn Dept, Baku, Azerbaijan
关键词
Optimization; Microgrid planning; Renewable resources; Artificial bee colony algorithm; OPTIMAL OPERATION; ENERGY; MANAGEMENT; SYSTEM; OPTIMIZATION; DEMAND; MODEL;
D O I
10.1016/j.egyr.2021.10.123
中图分类号
TE [石油、天然气工业]; TK [能源与动力工程];
学科分类号
0807 ; 0820 ;
摘要
A two-stage planning form of multi-energy supply optimization such as power, cooling, and heating is presented in this paper as a micro energy grid (MEG) To cover the effect of uncertainty in renewable energy sources (RES), the scheduling cycle is considered in this paper. Next, the results of the day-ahead prediction are considered as random variables for the upper-layer model. To realize the random variables at the lower layer, the revised model of energy storage and the demand response (DR) planning model are considered. Finally, the modified version of the artificial bee colony (ABC) algorithm is utilized to find the optimal solution. The improved ABC algorithm is a shape-memory method based on the collective intelligence and behavior of bees in a colony for finding the best nutrition source. In the improved ABC algorithm, with information exchange between the bees, based on Newton's law of universal gravitation, the full potential of this algorithm is used to find the optimal solution given the constraints applied to the system. The proposed method is applied to a real system and the results show that the two-stage optimization algorithm and the proposed intelligent algorithm obtained the simultaneous optimization of different energy forms. The obtained numerical analysis results in test cases prove the following points: (1) The optimal synergistic supply of multiple energy forms has been provided based on the two-stage optimization algorithm and solution approach. (2) The surplus energy can be converted to natural gas by the power-to-gas converter (P2G) based on power cascade conversion in a multi-directional mode. (3) To get some revenue, the MEG is flexible enough to cooperate with the upper-grade energy network. (4) The DR-based price can smooth the load shape and increase the MEG operation revenue using some supplementary features. Also, P2G can sequentially develop the flexible multidirectional energy conversion in energy - gas - energy cooling as a cascade. When the evaluated P2G energy rises by 450 kW, the total GST output raises by 1244 kWh. For more economic benefits, MEG can be connected to the upstream energy grid. Load management also increases the net revenue of the system. (C) 2021 Published by Elsevier Ltd.
引用
收藏
页码:8912 / 8928
页数:17
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