Improved Golden Jackal optimization for optimal allocation and scheduling of wind turbine and electric vehicles parking lots in electrical distribution network using Rosenbrock's direct Rotation Strategy
In this paper, a multi-objective allocation and scheduling of wind turbines and electric vehicle parking lots are performed in an IEEE 33-bus radial distribution network to reach the minimum annual costs of power loss, purchased grid energy, wind energy, PHEV energy, battery degradation cost, and ne...
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my.um.eprints.385662024-08-29T04:50:40Z http://eprints.um.edu.my/38566/ Improved Golden Jackal optimization for optimal allocation and scheduling of wind turbine and electric vehicles parking lots in electrical distribution network using Rosenbrock's direct Rotation Strategy Yang, Jing Xiong, Jiale Chen, Yen-Lin Yee, Por Lip Ku, Chin Soon Babanezhad, Manoochehr QA Mathematics QA75 Electronic computers. Computer science QA76 Computer software In this paper, a multi-objective allocation and scheduling of wind turbines and electric vehicle parking lots are performed in an IEEE 33-bus radial distribution network to reach the minimum annual costs of power loss, purchased grid energy, wind energy, PHEV energy, battery degradation cost, and network voltage deviations. Decision variables, such as the site and size of wind turbines and electric parking lots in the distribution system, are found using an improved golden jackal optimization (IGJO) algorithm based on Rosenbrock's direct rotational (RDR) strategy. The results showed that the IGJO finds the optimal solution with a lower convergence tolerance and a better (lower) objective function value compared to conventional GJO, the artificial electric field algorithm (AEFA), particle swarm optimization (PSO), and manta ray foraging optimization (MRFO) methods. The results showed that using the proposed method based on the IGJO, the energy loss cost, grid energy cost, and network voltage deviations were reduced by 29.76%, 65.86%, and 18.63%, respectively, compared to the base network. Moreover, the statistical analysis results proved their superiority compared to the conventional GJO, AEFA, PSO, and MRFO algorithms. Moreover, considering vehicles battery degradation costs, the losses cost, grid energy cost, and network voltage deviations have been reduced by 3.28%, 1.07%, and 4.32%, respectively, compared to the case without battery degradation costs. In addition, the results showed that the decrease in electric vehicle availability causes increasing losses for grid energy costs and weakens the network voltage profile, and vice versa. MDPI 2023-03 Article PeerReviewed Yang, Jing and Xiong, Jiale and Chen, Yen-Lin and Yee, Por Lip and Ku, Chin Soon and Babanezhad, Manoochehr (2023) Improved Golden Jackal optimization for optimal allocation and scheduling of wind turbine and electric vehicles parking lots in electrical distribution network using Rosenbrock's direct Rotation Strategy. Mathematics, 11 (6). ISSN 2227-7390, DOI https://doi.org/10.3390/math11061415 <https://doi.org/10.3390/math11061415>. 10.3390/math11061415 |
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QA Mathematics QA75 Electronic computers. Computer science QA76 Computer software Yang, Jing Xiong, Jiale Chen, Yen-Lin Yee, Por Lip Ku, Chin Soon Babanezhad, Manoochehr Improved Golden Jackal optimization for optimal allocation and scheduling of wind turbine and electric vehicles parking lots in electrical distribution network using Rosenbrock's direct Rotation Strategy |
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In this paper, a multi-objective allocation and scheduling of wind turbines and electric vehicle parking lots are performed in an IEEE 33-bus radial distribution network to reach the minimum annual costs of power loss, purchased grid energy, wind energy, PHEV energy, battery degradation cost, and network voltage deviations. Decision variables, such as the site and size of wind turbines and electric parking lots in the distribution system, are found using an improved golden jackal optimization (IGJO) algorithm based on Rosenbrock's direct rotational (RDR) strategy. The results showed that the IGJO finds the optimal solution with a lower convergence tolerance and a better (lower) objective function value compared to conventional GJO, the artificial electric field algorithm (AEFA), particle swarm optimization (PSO), and manta ray foraging optimization (MRFO) methods. The results showed that using the proposed method based on the IGJO, the energy loss cost, grid energy cost, and network voltage deviations were reduced by 29.76%, 65.86%, and 18.63%, respectively, compared to the base network. Moreover, the statistical analysis results proved their superiority compared to the conventional GJO, AEFA, PSO, and MRFO algorithms. Moreover, considering vehicles battery degradation costs, the losses cost, grid energy cost, and network voltage deviations have been reduced by 3.28%, 1.07%, and 4.32%, respectively, compared to the case without battery degradation costs. In addition, the results showed that the decrease in electric vehicle availability causes increasing losses for grid energy costs and weakens the network voltage profile, and vice versa. |
| format |
Article |
| author |
Yang, Jing Xiong, Jiale Chen, Yen-Lin Yee, Por Lip Ku, Chin Soon Babanezhad, Manoochehr |
| author_facet |
Yang, Jing Xiong, Jiale Chen, Yen-Lin Yee, Por Lip Ku, Chin Soon Babanezhad, Manoochehr |
| author_sort |
Yang, Jing |
| title |
Improved Golden Jackal optimization for optimal allocation and scheduling of wind turbine and electric vehicles parking lots in electrical distribution network using Rosenbrock's direct Rotation Strategy |
| title_short |
Improved Golden Jackal optimization for optimal allocation and scheduling of wind turbine and electric vehicles parking lots in electrical distribution network using Rosenbrock's direct Rotation Strategy |
| title_full |
Improved Golden Jackal optimization for optimal allocation and scheduling of wind turbine and electric vehicles parking lots in electrical distribution network using Rosenbrock's direct Rotation Strategy |
| title_fullStr |
Improved Golden Jackal optimization for optimal allocation and scheduling of wind turbine and electric vehicles parking lots in electrical distribution network using Rosenbrock's direct Rotation Strategy |
| title_full_unstemmed |
Improved Golden Jackal optimization for optimal allocation and scheduling of wind turbine and electric vehicles parking lots in electrical distribution network using Rosenbrock's direct Rotation Strategy |
| title_sort |
improved golden jackal optimization for optimal allocation and scheduling of wind turbine and electric vehicles parking lots in electrical distribution network using rosenbrock's direct rotation strategy |
| publisher |
MDPI |
| publishDate |
2023 |
| url |
http://eprints.um.edu.my/38566/ |
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1811682079562268672 |
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13.214268 |