Optimal Techno-Economic Design of Standalone Hybrid Renewable Energy System Using Genetic Algorithm
This paper presents a methodology to size Standalone Hybrid Renewable Energy System (SHRES) which combines solar PV, wind turbine (WT) and battery energy storage (BES) for application in rural areas. These sources are integrated via an AC bus to support the load demand. SHRES is simulated under vary...
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my.uniten.dspace-129622020-07-07T02:54:21Z Optimal Techno-Economic Design of Standalone Hybrid Renewable Energy System Using Genetic Algorithm Hlal, I.M. Ramachandaramurthy, V.K. Hafiz Nagi, F. Bin Tuan Abdullah, T.A.R. This paper presents a methodology to size Standalone Hybrid Renewable Energy System (SHRES) which combines solar PV, wind turbine (WT) and battery energy storage (BES) for application in rural areas. These sources are integrated via an AC bus to support the load demand. SHRES is simulated under varying load demand, solar radiation, temperature and wind speed obtained from the Malaysian Meteorological Department. A Multi-objective Optimization using Non-dominate Sorting Genetic Algorithm (NSGA-II) was utilized to determine the best sizing of PV / wind turbine / battery, and minimize Cost of Energy (COE) and Loss of Power Supply Probability (LPSP). The results show that the NSGAII optimization of the model is able to determine the best techno-economic sizing for the suggested location. For the case study, the optimum COE was 0.1099 (USD/kWh) and LPSP was 0.0865. The proposed tool can be used to size the SHRES for rural electrification and enhance energy access within remote locations. © Published under licence by IOP Publishing Ltd. 2020-02-03T03:28:07Z 2020-02-03T03:28:07Z 2019 Conference Paper 10.1088/1755-1315/268/1/012012 en |
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This paper presents a methodology to size Standalone Hybrid Renewable Energy System (SHRES) which combines solar PV, wind turbine (WT) and battery energy storage (BES) for application in rural areas. These sources are integrated via an AC bus to support the load demand. SHRES is simulated under varying load demand, solar radiation, temperature and wind speed obtained from the Malaysian Meteorological Department. A Multi-objective Optimization using Non-dominate Sorting Genetic Algorithm (NSGA-II) was utilized to determine the best sizing of PV / wind turbine / battery, and minimize Cost of Energy (COE) and Loss of Power Supply Probability (LPSP). The results show that the NSGAII optimization of the model is able to determine the best techno-economic sizing for the suggested location. For the case study, the optimum COE was 0.1099 (USD/kWh) and LPSP was 0.0865. The proposed tool can be used to size the SHRES for rural electrification and enhance energy access within remote locations. © Published under licence by IOP Publishing Ltd. |
| format |
Conference Paper |
| author |
Hlal, I.M. Ramachandaramurthy, V.K. Hafiz Nagi, F. Bin Tuan Abdullah, T.A.R. |
| spellingShingle |
Hlal, I.M. Ramachandaramurthy, V.K. Hafiz Nagi, F. Bin Tuan Abdullah, T.A.R. Optimal Techno-Economic Design of Standalone Hybrid Renewable Energy System Using Genetic Algorithm |
| author_facet |
Hlal, I.M. Ramachandaramurthy, V.K. Hafiz Nagi, F. Bin Tuan Abdullah, T.A.R. |
| author_sort |
Hlal, I.M. |
| title |
Optimal Techno-Economic Design of Standalone Hybrid Renewable Energy System Using Genetic Algorithm |
| title_short |
Optimal Techno-Economic Design of Standalone Hybrid Renewable Energy System Using Genetic Algorithm |
| title_full |
Optimal Techno-Economic Design of Standalone Hybrid Renewable Energy System Using Genetic Algorithm |
| title_fullStr |
Optimal Techno-Economic Design of Standalone Hybrid Renewable Energy System Using Genetic Algorithm |
| title_full_unstemmed |
Optimal Techno-Economic Design of Standalone Hybrid Renewable Energy System Using Genetic Algorithm |
| title_sort |
optimal techno-economic design of standalone hybrid renewable energy system using genetic algorithm |
| publishDate |
2020 |
| _version_ |
1672614193639981056 |
| score |
13.214268 |