Sustainable electrification of remote communities: Techno-economic and demand response analysis for renewable microgrids
Bangladesh has an acute power deficit, its rural areas consequently calling for creative renewable-energy solutions. A remote riverside-border village in the district of Rajshahi, off-grid due to its geography across the Padma River, boasts 2,500 inhabitants with 850 households, a primary school amo...
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| Language: | English |
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Elsevier
2025-04-01
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| Series: | Energy Conversion and Management: X |
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| Online Access: | http://www.sciencedirect.com/science/article/pii/S2590174525000959 |
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| author | Md. Feroz Ali Md. Rafiqul Islam Sheikh Mir Md. Julhash Ashraf Hossain Sanvi |
| author_facet | Md. Feroz Ali Md. Rafiqul Islam Sheikh Mir Md. Julhash Ashraf Hossain Sanvi |
| author_sort | Md. Feroz Ali |
| collection | DOAJ |
| description | Bangladesh has an acute power deficit, its rural areas consequently calling for creative renewable-energy solutions. A remote riverside-border village in the district of Rajshahi, off-grid due to its geography across the Padma River, boasts 2,500 inhabitants with 850 households, a primary school among them. It is to be powered from abundant renewables by means of an off-grid microgrid integrating solar photovoltaic (PV) and wind turbine (WT) generation with a battery energy storage system (BESS), designed in HOMER Pro (version 3.14.2). Optimum systems, including PV, WT, and BESS, attain an NPC of $171,720, a COE of $0.0688/kWh, an operating cost of $2,658.03, and a capital cost of $136,082 among three configurations analyzed. The system ensures zero carbon emission with a 100% Renewable Fraction (RF), indicating environmental benefits. Sensitivity analysis of factors like solar irradiance, wind speed, and component costs revealed economic variability, while diverse load dispatch strategies enhanced efficiency. Using MATLAB simulation, demand response analysis showed annual energy savings of 9,686.427 kWh/year. Moreover, future energy demand projections and system scalability analysis demonstrate the adaptability of the microgrid to population growth, ensuring long-term sustainability and cost-effectiveness. This study offers a scalable model for sustainable rural electrification in remote regions globally, promoting environmental sustainability and energy access in isolated communities. |
| format | Article |
| id | doaj-art-6ffcfdd3a456406ca6999821048a71f3 |
| institution | OA Journals |
| issn | 2590-1745 |
| language | English |
| publishDate | 2025-04-01 |
| publisher | Elsevier |
| record_format | Article |
| series | Energy Conversion and Management: X |
| spelling | doaj-art-6ffcfdd3a456406ca6999821048a71f32025-08-20T01:51:00ZengElsevierEnergy Conversion and Management: X2590-17452025-04-012610096310.1016/j.ecmx.2025.100963Sustainable electrification of remote communities: Techno-economic and demand response analysis for renewable microgridsMd. Feroz Ali0Md. Rafiqul Islam Sheikh1Mir Md. Julhash2Ashraf Hossain Sanvi3Department of Electrical and Electronic Engineering, Pabna University of Science and Technology, Pabna 6600, Bangladesh; Corresponding author.Department of Electrical and Electronic Engineering, Rajshahi University of Engineering & Technology, Rajshahi 6204, BangladeshDepartment of Electrical and Electronic Engineering, Pabna University of Science and Technology, Pabna 6600, BangladeshDepartment of Electrical and Electronic Engineering, Pabna University of Science and Technology, Pabna 6600, BangladeshBangladesh has an acute power deficit, its rural areas consequently calling for creative renewable-energy solutions. A remote riverside-border village in the district of Rajshahi, off-grid due to its geography across the Padma River, boasts 2,500 inhabitants with 850 households, a primary school among them. It is to be powered from abundant renewables by means of an off-grid microgrid integrating solar photovoltaic (PV) and wind turbine (WT) generation with a battery energy storage system (BESS), designed in HOMER Pro (version 3.14.2). Optimum systems, including PV, WT, and BESS, attain an NPC of $171,720, a COE of $0.0688/kWh, an operating cost of $2,658.03, and a capital cost of $136,082 among three configurations analyzed. The system ensures zero carbon emission with a 100% Renewable Fraction (RF), indicating environmental benefits. Sensitivity analysis of factors like solar irradiance, wind speed, and component costs revealed economic variability, while diverse load dispatch strategies enhanced efficiency. Using MATLAB simulation, demand response analysis showed annual energy savings of 9,686.427 kWh/year. Moreover, future energy demand projections and system scalability analysis demonstrate the adaptability of the microgrid to population growth, ensuring long-term sustainability and cost-effectiveness. This study offers a scalable model for sustainable rural electrification in remote regions globally, promoting environmental sustainability and energy access in isolated communities.http://www.sciencedirect.com/science/article/pii/S2590174525000959Renewable energy microgridBattery energy storage systems (BESS)Solar PV and wind turbinesSensitivity analysisDemand Response |
| spellingShingle | Md. Feroz Ali Md. Rafiqul Islam Sheikh Mir Md. Julhash Ashraf Hossain Sanvi Sustainable electrification of remote communities: Techno-economic and demand response analysis for renewable microgrids Energy Conversion and Management: X Renewable energy microgrid Battery energy storage systems (BESS) Solar PV and wind turbines Sensitivity analysis Demand Response |
| title | Sustainable electrification of remote communities: Techno-economic and demand response analysis for renewable microgrids |
| title_full | Sustainable electrification of remote communities: Techno-economic and demand response analysis for renewable microgrids |
| title_fullStr | Sustainable electrification of remote communities: Techno-economic and demand response analysis for renewable microgrids |
| title_full_unstemmed | Sustainable electrification of remote communities: Techno-economic and demand response analysis for renewable microgrids |
| title_short | Sustainable electrification of remote communities: Techno-economic and demand response analysis for renewable microgrids |
| title_sort | sustainable electrification of remote communities techno economic and demand response analysis for renewable microgrids |
| topic | Renewable energy microgrid Battery energy storage systems (BESS) Solar PV and wind turbines Sensitivity analysis Demand Response |
| url | http://www.sciencedirect.com/science/article/pii/S2590174525000959 |
| work_keys_str_mv | AT mdferozali sustainableelectrificationofremotecommunitiestechnoeconomicanddemandresponseanalysisforrenewablemicrogrids AT mdrafiqulislamsheikh sustainableelectrificationofremotecommunitiestechnoeconomicanddemandresponseanalysisforrenewablemicrogrids AT mirmdjulhash sustainableelectrificationofremotecommunitiestechnoeconomicanddemandresponseanalysisforrenewablemicrogrids AT ashrafhossainsanvi sustainableelectrificationofremotecommunitiestechnoeconomicanddemandresponseanalysisforrenewablemicrogrids |