Techno-Economic and Environmental Analysis of Grid-Connected Electric Vehicle Charging Station Using AI-Based Algorithm

The rapid growth of electric vehicles in India necessitates more power to energize such vehicles. Furthermore, the transport industry emits greenhouse gases, particularly SO2, CO2. The national grid has to supply an enormous amount of power on a daily basis due to the surplus power required to charg...

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Published inMathematics (Basel) Vol. 10; no. 6; p. 924
Main Authors Bilal, Mohd, Alsaidan, Ibrahim, Alaraj, Muhannad, Almasoudi, Fahad M., Rizwan, Mohammad
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.03.2022
Subjects
Algorithms
Alternative energy sources
artificial intelligence
Carbon dioxide
Coal
Configurations
Costs
Diesel generators
Economic analysis
Electric vehicle charging
electric vehicle charging station
Electric vehicle charging stations
Electric vehicles
Electricity generation
Emissions
Energy value
Food science
Greenhouse gases
Heuristic methods
hybrid optimization of multiple energy resources
Hybrid systems
Industrial plant emissions
Nuclear energy
Nuclear power plants
Optimization
renewable energy
Renewable resources
Roads & highways
salp swarm algorithm
Sulfur dioxide
Systems stability
Transportation industry
Transportation planning
Wind power
India
Online AccessGet full text
ISSN2227-7390
2227-7390
DOI10.3390/math10060924

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Abstract The rapid growth of electric vehicles in India necessitates more power to energize such vehicles. Furthermore, the transport industry emits greenhouse gases, particularly SO2, CO2. The national grid has to supply an enormous amount of power on a daily basis due to the surplus power required to charge these electric vehicles. This paper presents the various hybrid energy system configurations to meet the power requirements of the electric vehicle charging station (EVCS) situated in the northwest region of Delhi, India. The three configurations are: (a) solar photovoltaic/diesel generator/battery-based EVCS, (b) solar photovoltaic/battery-based EVCS, and (c) grid-and-solar photovoltaic-based EVCS. The meta-heuristic techniques are implemented to analyze the technological, financial, and environmental feasibility of the three possible configurations. The optimization algorithm intends to reduce the total net present cost and levelized cost of energy while keeping the value of lack of power supply probability within limits. To confirm the solution quality obtained using modified salp swarm algorithm (MSSA), the popularly used HOMER software, salp swarm algorithm (SSA), and the gray wolf optimization are applied to the same problem, and their outcomes are equated to those attained by the MSSA. MSSA exhibits superior accuracy and robustness based on simulation outcomes. The MSSA performs much better in terms of computation time followed by the SSA and gray wolf optimization. MSSA results in reduced levelized cost of energy values in all three configurations, i.e., USD 0.482/kWh, USD 0.684/kWh, and USD 0.119/kWh in configurations 1, 2, and 3, respectively. Our findings will be useful for researchers in determining the best method for the sizing of energy system components.
AbstractList The rapid growth of electric vehicles in India necessitates more power to energize such vehicles. Furthermore, the transport industry emits greenhouse gases, particularly SO2, CO2. The national grid has to supply an enormous amount of power on a daily basis due to the surplus power required to charge these electric vehicles. This paper presents the various hybrid energy system configurations to meet the power requirements of the electric vehicle charging station (EVCS) situated in the northwest region of Delhi, India. The three configurations are: (a) solar photovoltaic/diesel generator/battery-based EVCS, (b) solar photovoltaic/battery-based EVCS, and (c) grid-and-solar photovoltaic-based EVCS. The meta-heuristic techniques are implemented to analyze the technological, financial, and environmental feasibility of the three possible configurations. The optimization algorithm intends to reduce the total net present cost and levelized cost of energy while keeping the value of lack of power supply probability within limits. To confirm the solution quality obtained using modified salp swarm algorithm (MSSA), the popularly used HOMER software, salp swarm algorithm (SSA), and the gray wolf optimization are applied to the same problem, and their outcomes are equated to those attained by the MSSA. MSSA exhibits superior accuracy and robustness based on simulation outcomes. The MSSA performs much better in terms of computation time followed by the SSA and gray wolf optimization. MSSA results in reduced levelized cost of energy values in all three configurations, i.e., USD 0.482/kWh, USD 0.684/kWh, and USD 0.119/kWh in configurations 1, 2, and 3, respectively. Our findings will be useful for researchers in determining the best method for the sizing of energy system components.
Author Rizwan, Mohammad
Almasoudi, Fahad M.
Alsaidan, Ibrahim
Alaraj, Muhannad
Bilal, Mohd
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SubjectTerms Algorithms
Alternative energy sources
artificial intelligence
Carbon dioxide
Coal
Configurations
Costs
Diesel generators
Economic analysis
Electric vehicle charging
electric vehicle charging station
Electric vehicle charging stations
Electric vehicles
Electricity generation
Emissions
Energy value
Food science
Greenhouse gases
Heuristic methods
hybrid optimization of multiple energy resources
Hybrid systems
Industrial plant emissions
Nuclear energy
Nuclear power plants
Optimization
renewable energy
Renewable resources
Roads & highways
salp swarm algorithm
Sulfur dioxide
Systems stability
Transportation industry
Transportation planning
Wind power
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