ANALYSIS OF WIND AND SEA CURRENT HYBRID POWER PLANT
The territory of Indonesia has a very large potential for wind energy and ocean currents. However, this potential cannot be optimally processed into electrical energy. This potential development is able to support one of the goals of the Sustainable Development Goals (SDGs). Vertical axis wind tu...
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id-itb.:583822021-09-02T13:01:01ZANALYSIS OF WIND AND SEA CURRENT HYBRID POWER PLANT Kusuma Nugraha, Fahri Indonesia Final Project Hybrid Power Plant, Wind Turbine and Ocean Current Turbine. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/58382 The territory of Indonesia has a very large potential for wind energy and ocean currents. However, this potential cannot be optimally processed into electrical energy. This potential development is able to support one of the goals of the Sustainable Development Goals (SDGs). Vertical axis wind turbines have advantages compared to horizontal axis wind turbines such as low noise, can work better in irregular wind flows and are able to rotate at low wind speeds. The maximum wind speed in 2020 around the Suramadu Bridge is 9.473 m/s while the largest ocean current speed is 1.1 m/s. This research uses Qblade software to design turbines and PSIM software to design power generation systems. The Darrieus H type turbine and the Darrieus Helixcoidate VAWT type turbine produce the most optimal turbine output power. The potential for wind turbine power at maximum speed is 4082,678 Watts, while the large potential for ocean current turbine power is 1253,149 Watts. The Cp value of the wind turbine is 0.49 while for the ocean current turbine it is 0.46. The radius and height of the wind turbine are 4m and 2m. Then the radius and height of the ocean current turbine are 2m and 1m. The Ld, Lq, Rs and Vpk/krpm of the generator are 1mH, 1mH, 1m? and 7112V/krpm. The simulation of wind power and ocean currents generates an electric power of 2072 Watt at a wind speed of 7m/s and an ocean current speed of 1m/s. text |
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Indonesia |
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The territory of Indonesia has a very large potential for wind energy and
ocean currents. However, this potential cannot be optimally processed into
electrical energy. This potential development is able to support one of the goals of
the Sustainable Development Goals (SDGs). Vertical axis wind turbines have
advantages compared to horizontal axis wind turbines such as low noise, can work
better in irregular wind flows and are able to rotate at low wind speeds. The
maximum wind speed in 2020 around the Suramadu Bridge is 9.473 m/s while the
largest ocean current speed is 1.1 m/s. This research uses Qblade software to
design turbines and PSIM software to design power generation systems. The
Darrieus H type turbine and the Darrieus Helixcoidate VAWT type turbine
produce the most optimal turbine output power. The potential for wind turbine
power at maximum speed is 4082,678 Watts, while the large potential for ocean
current turbine power is 1253,149 Watts. The Cp value of the wind turbine is 0.49
while for the ocean current turbine it is 0.46. The radius and height of the wind
turbine are 4m and 2m. Then the radius and height of the ocean current turbine are
2m and 1m. The Ld, Lq, Rs and Vpk/krpm of the generator are 1mH, 1mH, 1m?
and 7112V/krpm. The simulation of wind power and ocean currents generates an
electric power of 2072 Watt at a wind speed of 7m/s and an ocean current speed
of 1m/s.
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| format |
Final Project |
| author |
Kusuma Nugraha, Fahri |
| spellingShingle |
Kusuma Nugraha, Fahri ANALYSIS OF WIND AND SEA CURRENT HYBRID POWER PLANT |
| author_facet |
Kusuma Nugraha, Fahri |
| author_sort |
Kusuma Nugraha, Fahri |
| title |
ANALYSIS OF WIND AND SEA CURRENT HYBRID POWER PLANT |
| title_short |
ANALYSIS OF WIND AND SEA CURRENT HYBRID POWER PLANT |
| title_full |
ANALYSIS OF WIND AND SEA CURRENT HYBRID POWER PLANT |
| title_fullStr |
ANALYSIS OF WIND AND SEA CURRENT HYBRID POWER PLANT |
| title_full_unstemmed |
ANALYSIS OF WIND AND SEA CURRENT HYBRID POWER PLANT |
| title_sort |
analysis of wind and sea current hybrid power plant |
| url |
https://digilib.itb.ac.id/gdl/view/58382 |
| _version_ |
1822002923644649472 |