Moth Flame Optimization Algorithm including Renewable Energy for Minimization of Generation & Emission Costs in Optimal Power Flow
Optimal power flow is an approach for enhancing power system performance, scheduling, and energy management. Because of its adaptability in a variety of settings, optimum power flow is becoming increasingly vital. The demand for optimization is driven by the need for cost-effective, efficient, and o...
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| Online Access: | http://umpir.ump.edu.my/id/eprint/35508/1/Moth%20Flame%20Optimization%20Algorithm%20including%20Renewable%20Energy%20for%20Minimization%20of%20Generation.pdf http://umpir.ump.edu.my/id/eprint/35508/ https://doi.org/10.1109/ACEEE56193.2022.9851834 |
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my.ump.umpir.355082022-10-25T02:40:31Z http://umpir.ump.edu.my/id/eprint/35508/ Moth Flame Optimization Algorithm including Renewable Energy for Minimization of Generation & Emission Costs in Optimal Power Flow Alam, Mohammad Khurshed Mohd Herwan, Sulaiman Ferdowsi, Asma Sayem, Md. Shaoran Khair, Nazmus Sakib TK Electrical engineering. Electronics Nuclear engineering Optimal power flow is an approach for enhancing power system performance, scheduling, and energy management. Because of its adaptability in a variety of settings, optimum power flow is becoming increasingly vital. The demand for optimization is driven by the need for cost-effective, efficient, and optimum solutions. Optimization is useful in a variety of fields, including science, economics, and engineering. This problem must be overcome to achieve the goals while keeping the system stable. Moth Flame Optimization (MFO), a recently developed metaheuristic algorithm, will be used to solve objective functions of the OPF issue for combined cost and emission reduction in IEEE 57-bus systems with thermal and stochastic wind-solar-small hydropower producing systems. According to the data, the MFO generated the best results across all simulated research conditions. MFO, for example, offers a total cost and emission of power generation of 248.4547 $/h for IEEE 57-bus systems, providing a 1.5 percent cost savings per hour above the worst values obtained when comparing approaches. According to the statistics, MFO beats the other algorithms and is a viable solution to the OPF problem IEEE 2022 Conference or Workshop Item PeerReviewed pdf en http://umpir.ump.edu.my/id/eprint/35508/1/Moth%20Flame%20Optimization%20Algorithm%20including%20Renewable%20Energy%20for%20Minimization%20of%20Generation.pdf Alam, Mohammad Khurshed and Mohd Herwan, Sulaiman and Ferdowsi, Asma and Sayem, Md. Shaoran and Khair, Nazmus Sakib (2022) Moth Flame Optimization Algorithm including Renewable Energy for Minimization of Generation & Emission Costs in Optimal Power Flow. In: IEEE 5th Asia Conference on Energy and Electrical Engineering (ACEEE), 8-10 July 2022 , Kuala Lumpur, Malaysia. pp. 41-45.. ISBN 978-1-6654-9933-0 https://doi.org/10.1109/ACEEE56193.2022.9851834 |
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TK Electrical engineering. Electronics Nuclear engineering Alam, Mohammad Khurshed Mohd Herwan, Sulaiman Ferdowsi, Asma Sayem, Md. Shaoran Khair, Nazmus Sakib Moth Flame Optimization Algorithm including Renewable Energy for Minimization of Generation & Emission Costs in Optimal Power Flow |
| description |
Optimal power flow is an approach for enhancing power system performance, scheduling, and energy management. Because of its adaptability in a variety of settings, optimum power flow is becoming increasingly vital. The demand for optimization is driven by the need for cost-effective, efficient, and optimum solutions. Optimization is useful in a variety of fields, including science, economics, and engineering. This problem must be overcome to achieve the goals while keeping the system stable. Moth Flame Optimization (MFO), a recently developed metaheuristic algorithm, will be used to solve objective functions of the OPF issue for combined cost and emission reduction in IEEE 57-bus systems with thermal and stochastic wind-solar-small hydropower producing systems. According to the data, the MFO generated the best results across all simulated research conditions. MFO, for example, offers a total cost and emission of power generation of 248.4547 $/h for IEEE 57-bus systems, providing a 1.5 percent cost savings per hour above the worst values obtained when comparing approaches. According to the statistics, MFO beats the other algorithms and is a viable solution to the OPF problem |
| format |
Conference or Workshop Item |
| author |
Alam, Mohammad Khurshed Mohd Herwan, Sulaiman Ferdowsi, Asma Sayem, Md. Shaoran Khair, Nazmus Sakib |
| author_facet |
Alam, Mohammad Khurshed Mohd Herwan, Sulaiman Ferdowsi, Asma Sayem, Md. Shaoran Khair, Nazmus Sakib |
| author_sort |
Alam, Mohammad Khurshed |
| title |
Moth Flame Optimization Algorithm including Renewable Energy for Minimization of Generation & Emission Costs in Optimal Power Flow |
| title_short |
Moth Flame Optimization Algorithm including Renewable Energy for Minimization of Generation & Emission Costs in Optimal Power Flow |
| title_full |
Moth Flame Optimization Algorithm including Renewable Energy for Minimization of Generation & Emission Costs in Optimal Power Flow |
| title_fullStr |
Moth Flame Optimization Algorithm including Renewable Energy for Minimization of Generation & Emission Costs in Optimal Power Flow |
| title_full_unstemmed |
Moth Flame Optimization Algorithm including Renewable Energy for Minimization of Generation & Emission Costs in Optimal Power Flow |
| title_sort |
moth flame optimization algorithm including renewable energy for minimization of generation & emission costs in optimal power flow |
| publisher |
IEEE |
| publishDate |
2022 |
| url |
http://umpir.ump.edu.my/id/eprint/35508/1/Moth%20Flame%20Optimization%20Algorithm%20including%20Renewable%20Energy%20for%20Minimization%20of%20Generation.pdf http://umpir.ump.edu.my/id/eprint/35508/ https://doi.org/10.1109/ACEEE56193.2022.9851834 |
| _version_ |
1748180709720195072 |