DESIGN OF TIDAL STREAM POWER PLANT IN CAPALULU STRAIT, NORTH MALUKU
The Indonesian government has set goals for increasing the use of renewable energy in the coming years. Currently, Indonesia relies heavily on non-renewable energy sources, which poses a threat to the environment due to the country's growing energy needs. This study aims to review the potent...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/71334 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The Indonesian government has set goals for increasing the use of renewable
energy in the coming years. Currently, Indonesia relies heavily on non-renewable
energy sources, which poses a threat to the environment due to the country's
growing energy needs. This study aims to review the potential for developing a tidal
power plant in Capalulu Strait, North Maluku. Using hydrodynamic modeling, the
study identified two potential locations at coordinates 1,877° S - 125,328° E (TP2)
and 1,863° S – 125,323° E (TP4) which were selected for having median current
speeds exceeding 1.8 m/s and maximum current speeds exceeding 3.5 m/s. The study
proposed using the KHPS Gen5 instrument by Verdant Power, a 5 m diameter
turbine with a rated nominal power of 37 kW and a maximum rated power of 56
kW. A power plant layout was designed to be placed at TP2 and TP4, each location
accommodating 45 turbines. The development of this power plant is estimated to
produce up to 22 GWh per year. Financial analysis resulted in a LCOE of
Rp5,930/kWh. However, this price is still high compared to the national electricity
tariff of Rp1,027,70/kWh. Nevertheless, the LCOE is still competitive with the cost
of diesel electricit0079, which is around IDR 5.804/kWh. Variations in the number
of turbines also did not result in a lower LCOE than the national tariff. Despite the
high development cost, this study shows that Capalulu Strait has promising tidal
energy potential.
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