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Basarudin, Hanim (2020) Optimal sizing of standalone hybrid energy system using a novel multi-objective evolutionary algorithm. PhD thesis, University of Nottingham.

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Abstract

Many remote areas are subjected to lack of electricity access thus affecting a nation’s growth. Building standalone hybrid energy systems (HES) have been proven to be the most feasible solution. The inclusion of supercapacitor in HES aids in prolonging battery lifespan, reducing the overall system costs. To optimally size the system, genetic algorithm (GA) is initially chosen as the optimization tool with the first objective to minimize cost. Since real problems such as this often have multiple objectives that conflict one another, multi-objective evolutionary algorithm (MOEA) is preferred, which is a solver developed from GA itself. The second objective function is formulated to minimize unmet load, for which when the cost increases, the unmet load decreases, and vice versa. However, MOEA has its own conflicting goals in balancing between a trade-off’s convergence and diversity. Many MOEAs are designed to overcome the issue but each has their own pros and cons. Therefore, a new MOEA approach is proposed in this research to combine the convergence and diversity evaluations into one to eliminate goal bias. The experiments in this thesis include load profile generation for HES sizing, comparison between HES with and without supercapacitor, GA’s multiple runs to find minimum cost for fixed percentage of unmet load, the proposed MOEA’s test for functionality and robustness, and finally the comparison between GA’s and the proposed MOEA’s solutions to the HES optimal sizing problem. The results prove the supercapacitor’s advantage in reducing cost, the proposed MOEA’s reliability, and the unmet load minimization function’s practicability. This thesis concludes with summary and future work of this research.

Item Type:	Thesis (University of Nottingham only) (PhD)
Supervisors:	Mohd Isa, Dino Amshah Wong, Yee Wan
Keywords:	optimization, multi-objective evolutionary algorithm, genetic algorithm, standalone hybrid system, supercapacitor
Subjects:	T Technology > TK Electrical engineering. Electronics Nuclear engineering
Faculties/Schools:	University of Nottingham, Malaysia > Faculty of Science and Engineering — Engineering > Department of Electrical and Electronic Engineering
Item ID:	59520
Depositing User:	BASARUDIN, HANIM
Date Deposited:	22 Feb 2020 04:40
Last Modified:	06 May 2020 10:51
URI:	https://eprints.nottingham.ac.uk/id/eprint/59520

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