Machine Learning-Assisted Tri-Objective Optimization Inspired by Grey Wolf Behavior of an Enhanced SOFC-Based System for Power and Freshwater Production

Hai, Tao and Alizadeh, As'ad and Ali, Masood Ashraf and Dhahad, Hayder A. and Goyal, Vishal and Mohammed Metwally, Ahmed Sayed and Ullah, Mirzat (2023) Machine Learning-Assisted Tri-Objective Optimization Inspired by Grey Wolf Behavior of an Enhanced SOFC-Based System for Power and Freshwater Production. International Journal of Hydrogen Energy, 48 (66). pp. 25869-25883. ISSN 03603199

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Abstract

In recent years paying attention to the generation of clean and sustainable power and fresh water along with having lower cost and emission has increased. In the present research, a novel scheme for generating efficient power using the flame-assisted fuel cell is introduced, which has higher efficiency than ordinary fuel cells due to increased hydrogen concentration in the flame-rich combustion chamber. The waste heat is then introduced to a multi-effect desalination unit through a heat recovery steam generation unit to generate fresh, drinkable water. In order to make the system have higher efficiency, lower cost, and lower emission, the machine learning techniques are applied to optimize the operational conditions of the system, and find out the best solution point based on the cutting-edge algorithm of the grey wolf. Also, a complete techno-economic analysis and a parametric study are necessary to figure out the best solution point based on the TOPSIS method. The results indicate that the maximum value of exergy efficiency and drinkable water generation is 67.5% and 3.4 kg/s, respectively, while the minimum energy cost is 90.1 $/MWh. Moreover, results show that for the second optimization scenario considering the drinkable water production, energy cost, and pollution index as the objectives, the net produced power, energy efficiency, exergy efficiency, and water mass flowrate improve by around 1059 kW, 5.1%, 1.3%, and 1.6 kg/s than the design condition. Besides, energy cost and emission index are reduced by about 22 $/MWh and 51.9 kg/MWh, respectively.

Item Type: Article
Uncontrolled Keywords: Clean energy, Sustainable power, Fresh water generation, Flame-assisted fuel cell, Hydrogen concentration
Subjects: T Technology > TA Engineering (General). Civil engineering (General)
T Technology > TC Hydraulic engineering. Ocean engineering
Divisions: Department of Civil Engineering > Research papers
Depositing User: ePrints Depositor
Date Deposited: 31 Oct 2024 10:02
Last Modified: 31 Oct 2024 10:02
URI: https://eprints.cihanuniversity.edu.iq/id/eprint/2142

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