Optimal sizing of combined stationary solid oxide fuel cell-based polygeneration system and electric vehicle charging considering multi-criteria decisions
Document Type
Article
Publication Date
12-1-2022
Abstract
This study focuses on designing an optimum polygeneration system for residential homes employing solid oxide fuel cells as the prime mover. Optimization of system components is conducted through multi-objective and multi-criteria combined with decision-making to define the priority of each criterion used. Genetic algorithm (GA) and particle swarm optimization (PSO) techniques are applied to find the optimum capacity and analytic hierarchy process as the decision-making method. Based on the results, the combination of GA and analytic hierarchy process (AHP) gets the best non-dominated solution among the ten solutions generated, superior in power loss and energy cost criteria. The preference design of ``energy loss-energy cost'' gets the highest priority rank of 0.188 with an efficiency of 0.797, primary energy saving of 0.651, CS of 0.424, carbon dioxide reduction of 0.626, and loss probability of 0.153. The optimum polygeneration system has higher primary energy-saving, CS, and carbon dioxide reduction by about 81.29%, 54%, and 99%, respectively, compared to the unoptimized systems.
Keywords
AHP, genetic algorithm, OA, PSO
Publication Title
Energy Technology
Recommended Citation
Ramadhani, Farah; Hussain, Mohd Azlan; Mokhlis, Hazlie; and Erixno, Oon, "Optimal sizing of combined stationary solid oxide fuel cell-based polygeneration system and electric vehicle charging considering multi-criteria decisions" (2022). Research Publications (2021 to 2025). 1896.
https://knova.um.edu.my/research_publications_2021_2025/1896
Divisions
umpedac
Funders
Universiti Malaya under UM International Collaboration Grant [ST027-2022]
Volume
10
Issue
12
Publisher
Wiley
Publisher Location
POSTFACH 101161, 69451 WEINHEIM, GERMANY