An improved artificial ecosystem optimization algorithm for optimal configuration of a hybrid PV/WT/FC energy system

This paper mainly focuses on the optimal design of a grid-dependent and off-grid hybrid renewable energy system (RES). This system consists of Photovoltaic (PV), Wind Turbine (WT) as well as Fuel Cell (FC) with hydrogen gas tank for storing the energy in the chemical form. The optimal components siz...

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Published inAlexandria engineering journal Vol. 60; no. 1; pp. 1001 - 1025
Main Authors Sultan, Hamdy M., Menesy, Ahmed S., Kamel, Salah, Korashy, Ahmed, Almohaimeed, S.A., Abdel-Akher, Mamdouh
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.02.2021
Elsevier
Subjects
Artificial ecosystem optimization
COE
Fuel cell
Hybrid system
Hydrogen gas tank
LPSP
Optimization
Renewable energy resources
Statistical analysis
Wind turbine
LPSP
Statistical analysis
Renewable energy resources
PV
COE
Artificial ecosystem optimization
Hydrogen gas tank
Wind turbine
Fuel cell
Optimization
Hybrid system
Online AccessGet full text
ISSN1110-0168
2090-2670
DOI10.1016/j.aej.2020.10.027

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Abstract This paper mainly focuses on the optimal design of a grid-dependent and off-grid hybrid renewable energy system (RES). This system consists of Photovoltaic (PV), Wind Turbine (WT) as well as Fuel Cell (FC) with hydrogen gas tank for storing the energy in the chemical form. The optimal components sizes of the proposed hybrid generating system are achieved using a novel metaheuristic optimization technique. This optimization technique, called Improved Artificial Ecosystem Optimization (IAEO), is proposed for enhancing the performance of the conventional Artificial Ecosystem Optimization (AEO) algorithm. The IAEO improves the convergence trends of the original AEO, gives the best minimum objective function, reaches the optimal solution after a few iterations numbers as well as reduces the falling into the local optima. The proposed IAEO algorithm for solving the multiobjective optimization problem of minimizing the Cost of Energy (COE), the reliability index presented by the Loss of Power Supply Probability (LPSP), and excess energy under the constraints are considered. The hybrid system is suggested to be located in Ataka region, Suez Gulf (latitude 30.0, longitude 32.5), Egypt, and the whole lifetime of the suggested case study is 25 years. To ensure the accurateness, stability, and robustness of the proposed optimization algorithm, it is examined on six different configurations, representing on-grid and off-grid hybrid RES. For all the studied cases the proposed IAEO algorithm outperforms the original AEO and generates the minimum value of the fitness function in less execution time. Furthermore, comprehensive statistical measurements are demonstrated to prove the effectiveness of the proposed algorithm. Also, the results obtained by the conventional AEO and IAEO are compared with those obtained by several well-known optimization algorithms, Particle Swarm Optimization (PSO), Salp Swarm Algorithm (SSA), and Grey Wolf Optimizer (GWO). Based on the obtained simulation results, the proposed IAEO has the best performance among other algorithms and it has successfully positioned itself as a competitor to novel algorithms for tackling the most complicated engineering problems.
AbstractList This paper mainly focuses on the optimal design of a grid-dependent and off-grid hybrid renewable energy system (RES). This system consists of Photovoltaic (PV), Wind Turbine (WT) as well as Fuel Cell (FC) with hydrogen gas tank for storing the energy in the chemical form. The optimal components sizes of the proposed hybrid generating system are achieved using a novel metaheuristic optimization technique. This optimization technique, called Improved Artificial Ecosystem Optimization (IAEO), is proposed for enhancing the performance of the conventional Artificial Ecosystem Optimization (AEO) algorithm. The IAEO improves the convergence trends of the original AEO, gives the best minimum objective function, reaches the optimal solution after a few iterations numbers as well as reduces the falling into the local optima. The proposed IAEO algorithm for solving the multiobjective optimization problem of minimizing the Cost of Energy (COE), the reliability index presented by the Loss of Power Supply Probability (LPSP), and excess energy under the constraints are considered. The hybrid system is suggested to be located in Ataka region, Suez Gulf (latitude 30.0, longitude 32.5), Egypt, and the whole lifetime of the suggested case study is 25 years. To ensure the accurateness, stability, and robustness of the proposed optimization algorithm, it is examined on six different configurations, representing on-grid and off-grid hybrid RES. For all the studied cases the proposed IAEO algorithm outperforms the original AEO and generates the minimum value of the fitness function in less execution time. Furthermore, comprehensive statistical measurements are demonstrated to prove the effectiveness of the proposed algorithm. Also, the results obtained by the conventional AEO and IAEO are compared with those obtained by several well-known optimization algorithms, Particle Swarm Optimization (PSO), Salp Swarm Algorithm (SSA), and Grey Wolf Optimizer (GWO). Based on the obtained simulation results, the proposed IAEO has the best performance among other algorithms and it has successfully positioned itself as a competitor to novel algorithms for tackling the most complicated engineering problems.
Author Kamel, Salah
Korashy, Ahmed
Abdel-Akher, Mamdouh
Almohaimeed, S.A.
Menesy, Ahmed S.
Sultan, Hamdy M.
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  givenname: Ahmed S.
  surname: Menesy
  fullname: Menesy, Ahmed S.
  email: ahmedsafy272@minia.edu.eg
  organization: Electrical Engineering Department, Faculty of Engineering, Minia University, 61111 Minia, Egypt
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  givenname: Salah
  surname: Kamel
  fullname: Kamel, Salah
  email: skamel@aswu.edu.eg
  organization: Electrical Engineering Department, Faculty of Engineering, Aswan University, 81542 Aswan, Egypt
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  givenname: Ahmed
  surname: Korashy
  fullname: Korashy, Ahmed
  organization: Electrical Engineering Department, Faculty of Engineering, Aswan University, 81542 Aswan, Egypt
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  givenname: S.A.
  surname: Almohaimeed
  fullname: Almohaimeed, S.A.
  email: sulaiman.m@qu.edu.sa
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– sequence: 6
  givenname: Mamdouh
  surname: Abdel-Akher
  fullname: Abdel-Akher, Mamdouh
  email: mabdelakher@ieee.org
  organization: Electrical Engineering Department, Faculty of Engineering, Aswan University, 81542 Aswan, Egypt
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Issue 1
Keywords LPSP
Statistical analysis
Renewable energy resources
PV
COE
Artificial ecosystem optimization
Hydrogen gas tank
Wind turbine
Fuel cell
Optimization
Hybrid system
Language English
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Snippet This paper mainly focuses on the optimal design of a grid-dependent and off-grid hybrid renewable energy system (RES). This system consists of Photovoltaic...
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SubjectTerms Artificial ecosystem optimization
COE
Fuel cell
Hybrid system
Hydrogen gas tank
LPSP
Optimization
Renewable energy resources
Statistical analysis
Wind turbine
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Title An improved artificial ecosystem optimization algorithm for optimal configuration of a hybrid PV/WT/FC energy system
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