DESIGN OF A HYBRID PV-WIND-GENSET SYSTEM FOR COMMERCIAL BUILDINGS IN FRONTIER, OUTERMOST, AND LEAST DEVELOPED REGIONS (CASE STUDY: MATAKUS ISLAND)
This research aims to develop a hybrid power generation system based on load data from the Guest House on Matakus Island. Additionally, the study aims to evaluate the effectiveness of renewable energy power generation at the Guest House on Matakus Island and analyze the techno-economic aspects of...
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id-itb.:761932023-08-12T17:02:42ZDESIGN OF A HYBRID PV-WIND-GENSET SYSTEM FOR COMMERCIAL BUILDINGS IN FRONTIER, OUTERMOST, AND LEAST DEVELOPED REGIONS (CASE STUDY: MATAKUS ISLAND) Laksmi Padmadewi, Ayu Indonesia Theses Solar PV, Wind Turbine, MATLAB/Simulink, Homer Pro, LCOE PVSyst. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/76193 This research aims to develop a hybrid power generation system based on load data from the Guest House on Matakus Island. Additionally, the study aims to evaluate the effectiveness of renewable energy power generation at the Guest House on Matakus Island and analyze the techno-economic aspects of the hybrid power generation system. Global Horizontal Irradiance (GHI) solar data and average wind speed data from Matakus Island were used to design a system combining solar PV, wind, diesel generator, and batteries to achieve an optimal configuration. The research findings indicate that the configuration with 5.75 kW solar PV, 3 kW wind, 5 kW diesel generator, and 18 kW battery is the optimal setup, capable of achieving fuel savings and reducing the Levelized Cost of Energy (LCOE) to Rp. 4362/kWh. The implementation of this hybrid power generation system successfully increased the Renewable Energy (RE) share to 83.8%, with an annual operating cost of Rp. 28.5 million. This configuration also reduced CO2 emissions to 1587 Kg/year with a fuel consumption of 606 L/year, contributing to environmental and climate change mitigation efforts. Moreover, the system achieved stability in producing a steady output voltage and meeting the load requirements of the Guest House on Matakus Island with a peak load of 3.42 kW. The use of the diesel generator as an active backup when the energy supply from renewable sources is insufficient demonstrates the efficiency and reliability of the system in providing the necessary electricity supply for the operation of the Guest House on Matakus Island. Furthermore, through analyzing various orientations for solar panel installations, it was found that the efficiency of solar panels facing North in a PV Tree-shaped arrangement could provide an annual energy output of 9211 kWh/year. Thus, this renewable energy-based hybrid power generation system proves to be an effective solution in meeting the electricity needs on Matakus Island. text |
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This research aims to develop a hybrid power generation system based on load data
from the Guest House on Matakus Island. Additionally, the study aims to evaluate
the effectiveness of renewable energy power generation at the Guest House on
Matakus Island and analyze the techno-economic aspects of the hybrid power
generation system. Global Horizontal Irradiance (GHI) solar data and average
wind speed data from Matakus Island were used to design a system combining solar
PV, wind, diesel generator, and batteries to achieve an optimal configuration. The
research findings indicate that the configuration with 5.75 kW solar PV, 3 kW wind,
5 kW diesel generator, and 18 kW battery is the optimal setup, capable of achieving
fuel savings and reducing the Levelized Cost of Energy (LCOE) to Rp. 4362/kWh.
The implementation of this hybrid power generation system successfully increased
the Renewable Energy (RE) share to 83.8%, with an annual operating cost of Rp.
28.5 million. This configuration also reduced CO2 emissions to 1587 Kg/year with
a fuel consumption of 606 L/year, contributing to environmental and climate
change mitigation efforts. Moreover, the system achieved stability in producing a
steady output voltage and meeting the load requirements of the Guest House on
Matakus Island with a peak load of 3.42 kW. The use of the diesel generator as an
active backup when the energy supply from renewable sources is insufficient
demonstrates the efficiency and reliability of the system in providing the necessary
electricity supply for the operation of the Guest House on Matakus Island.
Furthermore, through analyzing various orientations for solar panel installations,
it was found that the efficiency of solar panels facing North in a PV Tree-shaped
arrangement could provide an annual energy output of 9211 kWh/year. Thus, this
renewable energy-based hybrid power generation system proves to be an effective
solution in meeting the electricity needs on Matakus Island. |
| format |
Theses |
| author |
Laksmi Padmadewi, Ayu |
| spellingShingle |
Laksmi Padmadewi, Ayu DESIGN OF A HYBRID PV-WIND-GENSET SYSTEM FOR COMMERCIAL BUILDINGS IN FRONTIER, OUTERMOST, AND LEAST DEVELOPED REGIONS (CASE STUDY: MATAKUS ISLAND) |
| author_facet |
Laksmi Padmadewi, Ayu |
| author_sort |
Laksmi Padmadewi, Ayu |
| title |
DESIGN OF A HYBRID PV-WIND-GENSET SYSTEM FOR COMMERCIAL BUILDINGS IN FRONTIER, OUTERMOST, AND LEAST DEVELOPED REGIONS (CASE STUDY: MATAKUS ISLAND) |
| title_short |
DESIGN OF A HYBRID PV-WIND-GENSET SYSTEM FOR COMMERCIAL BUILDINGS IN FRONTIER, OUTERMOST, AND LEAST DEVELOPED REGIONS (CASE STUDY: MATAKUS ISLAND) |
| title_full |
DESIGN OF A HYBRID PV-WIND-GENSET SYSTEM FOR COMMERCIAL BUILDINGS IN FRONTIER, OUTERMOST, AND LEAST DEVELOPED REGIONS (CASE STUDY: MATAKUS ISLAND) |
| title_fullStr |
DESIGN OF A HYBRID PV-WIND-GENSET SYSTEM FOR COMMERCIAL BUILDINGS IN FRONTIER, OUTERMOST, AND LEAST DEVELOPED REGIONS (CASE STUDY: MATAKUS ISLAND) |
| title_full_unstemmed |
DESIGN OF A HYBRID PV-WIND-GENSET SYSTEM FOR COMMERCIAL BUILDINGS IN FRONTIER, OUTERMOST, AND LEAST DEVELOPED REGIONS (CASE STUDY: MATAKUS ISLAND) |
| title_sort |
design of a hybrid pv-wind-genset system for commercial buildings in frontier, outermost, and least developed regions (case study: matakus island) |
| url |
https://digilib.itb.ac.id/gdl/view/76193 |
| _version_ |
1822994751147737088 |