Optimizing energy production: superiority of feasible solution-moth flame optimization in IEEE 57-bus systems for optimal power flow
Optimal Power Flow (OPF) presents a formidable challenge in power systems, characterized by non-convex and non-linear optimization constraints. Significant attention has been dedicated to addressing this issue, particularly in optimizing control variables, given their crucial role in achieving syste...
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Accent Social and Welfare Society
2024
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| Online Access: | http://umpir.ump.edu.my/id/eprint/41463/1/Optimizing%20energy%20production%20superiority%20of%20feasible%20solution-moth%20flame.pdf http://umpir.ump.edu.my/id/eprint/41463/ http://dx.doi.org/10.19101/IJATEE.2023.10102385 |
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my.ump.umpir.414632024-06-05T03:36:11Z http://umpir.ump.edu.my/id/eprint/41463/ Optimizing energy production: superiority of feasible solution-moth flame optimization in IEEE 57-bus systems for optimal power flow Alam, Mohammad Khurshed Mohd Herwan, Sulaiman Sayem, Md. Shaoran Ferdowsi, Asma Foysal, Md. Akter Ringku, Md. Mahfuzur TK Electrical engineering. Electronics Nuclear engineering Optimal Power Flow (OPF) presents a formidable challenge in power systems, characterized by non-convex and non-linear optimization constraints. Significant attention has been dedicated to addressing this issue, particularly in optimizing control variables, given their crucial role in achieving system objectives while ensuring stability. Consequently, OPF remains a focal point in power systems engineering. This study utilizes the superiority of feasible solution-moth flame optimization (SF-MFO) algorithm to tackle five key objectives in the OPF problem. These objectives include minimizing power generation costs, reducing power loss, emissions, voltage deviation, and optimizing both cost and emissions simultaneously across various power generation sources, such as thermal and stochastic wind-solar-small hydro. Evaluation of SF-MFO's performance in handling the OPF problem involves utilizing IEEE 57-bus systems integrated with stochastic wind-solar-small hydro power generators. Statistical analyses demonstrate SF-MFO's consistent superiority over alternative metaheuristic algorithms across all simulation scenarios. For instance, in power generation cost and emissions, the IEEE 57-bus systems achieve a rate of 28129.41033 $/hr, representing a 1.02% cost saving per hour compared to the worst results obtained from other algorithms. The study indicates SF-MFO's efficacy in navigating complex search spaces while maintaining feasibility, offering a promising approach to address energy optimization challenges. Accent Social and Welfare Society 2024 Article PeerReviewed pdf en cc_by_4 http://umpir.ump.edu.my/id/eprint/41463/1/Optimizing%20energy%20production%20superiority%20of%20feasible%20solution-moth%20flame.pdf Alam, Mohammad Khurshed and Mohd Herwan, Sulaiman and Sayem, Md. Shaoran and Ferdowsi, Asma and Foysal, Md. and Akter Ringku, Md. Mahfuzur (2024) Optimizing energy production: superiority of feasible solution-moth flame optimization in IEEE 57-bus systems for optimal power flow. International Journal of Advanced Technology and Engineering Exploration, 11 (114). pp. 1-22. ISSN 2394-5443. (Published) http://dx.doi.org/10.19101/IJATEE.2023.10102385 10.19101/IJATEE.2023.10102385 |
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TK Electrical engineering. Electronics Nuclear engineering Alam, Mohammad Khurshed Mohd Herwan, Sulaiman Sayem, Md. Shaoran Ferdowsi, Asma Foysal, Md. Akter Ringku, Md. Mahfuzur Optimizing energy production: superiority of feasible solution-moth flame optimization in IEEE 57-bus systems for optimal power flow |
| description |
Optimal Power Flow (OPF) presents a formidable challenge in power systems, characterized by non-convex and non-linear optimization constraints. Significant attention has been dedicated to addressing this issue, particularly in optimizing control variables, given their crucial role in achieving system objectives while ensuring stability. Consequently, OPF remains a focal point in power systems engineering. This study utilizes the superiority of feasible solution-moth flame optimization (SF-MFO) algorithm to tackle five key objectives in the OPF problem. These objectives include minimizing power generation costs, reducing power loss, emissions, voltage deviation, and optimizing both cost and emissions simultaneously across various power generation sources, such as thermal and stochastic wind-solar-small hydro. Evaluation of SF-MFO's performance in handling the OPF problem involves utilizing IEEE 57-bus systems integrated with stochastic wind-solar-small hydro power generators. Statistical analyses demonstrate SF-MFO's consistent superiority over alternative metaheuristic algorithms across all simulation scenarios. For instance, in power generation cost and emissions, the IEEE 57-bus systems achieve a rate of 28129.41033 $/hr, representing a 1.02% cost saving per hour compared to the worst results obtained from other algorithms. The study indicates SF-MFO's efficacy in navigating complex search spaces while maintaining feasibility, offering a promising approach to address energy optimization challenges. |
| format |
Article |
| author |
Alam, Mohammad Khurshed Mohd Herwan, Sulaiman Sayem, Md. Shaoran Ferdowsi, Asma Foysal, Md. Akter Ringku, Md. Mahfuzur |
| author_facet |
Alam, Mohammad Khurshed Mohd Herwan, Sulaiman Sayem, Md. Shaoran Ferdowsi, Asma Foysal, Md. Akter Ringku, Md. Mahfuzur |
| author_sort |
Alam, Mohammad Khurshed |
| title |
Optimizing energy production: superiority of feasible solution-moth flame optimization in IEEE 57-bus systems for optimal power flow |
| title_short |
Optimizing energy production: superiority of feasible solution-moth flame optimization in IEEE 57-bus systems for optimal power flow |
| title_full |
Optimizing energy production: superiority of feasible solution-moth flame optimization in IEEE 57-bus systems for optimal power flow |
| title_fullStr |
Optimizing energy production: superiority of feasible solution-moth flame optimization in IEEE 57-bus systems for optimal power flow |
| title_full_unstemmed |
Optimizing energy production: superiority of feasible solution-moth flame optimization in IEEE 57-bus systems for optimal power flow |
| title_sort |
optimizing energy production: superiority of feasible solution-moth flame optimization in ieee 57-bus systems for optimal power flow |
| publisher |
Accent Social and Welfare Society |
| publishDate |
2024 |
| url |
http://umpir.ump.edu.my/id/eprint/41463/1/Optimizing%20energy%20production%20superiority%20of%20feasible%20solution-moth%20flame.pdf http://umpir.ump.edu.my/id/eprint/41463/ http://dx.doi.org/10.19101/IJATEE.2023.10102385 |
| _version_ |
1822924378925432832 |
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13.232414 |