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B2TE-BPPT #620 Kawasan Puspiptek Serpong Tangerang Selatan,15314
- Indonesia
Telp/Fax : +62 21 756 0940 - +62 21 756
5670www.whypgen-bppt.com
Wind H ybr id Power Generat ionMark et ing Development I n i t
ia t ive
WH yPGen - BPPT
Peta Potensi Pembangkit Listrik Tenaga Bayu (PLTB)
di Indonesia dan Hasil Kajian Awal PLTB di 10 Lokasi
Disusun berdasarkan Wind Resource Assessment
Map of Potential Locations for Wind Power Generation in
Indonesia
and Pre-Feasibility Studies in 10 LocationsBased on Wind
Resource Assessment
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PEUKAN BADAACEH BESAR
Avg Wind Speed 5.15 m/s at 50 m heightsPotential Wind Power
Generation 90 MW*
MUARA BINUANGEUN
LEBAK
Avg Wind Speed 5.5 m/s at 50 m heightsPotential Wind Power
Generation 68 MW*
TANJUNGTINGGI
BELITUNG
Avg Wind Speed 6.1m/s at 50 m heightsPotential Wind Power
Generation 5 MW*
CIEMASSUKABUMI
Avg Wind Speed 6.6 m/s at 50 m heightsPotential Wind Power
Generation 50 MW*
CIKELETGARUT
Avg Wind Speed 6.6 m/s at 50 m heightsPotential Wind Power
Generation 68 MW* GUNUNG
SELOKCILACAP
Avg Wind Speed 5.47 m/s at 60 m heights
BARONGUNUNG
KIDUL
Avg Wind Speed 5.8 m/s at 50 m heightsPotential Wind Power
Generation 15.3 MW*
Avg Wind Speed 5.32 m/s at 60 m heightsPotential Wind Power
Generation 90 MW*
HARJOWINANGUNPURWOREJO
PANDANSIMOBANTUL
Avg Wind Speed 4.1 m/s at 50 m heightsPotential Wind Power
Generation 50 MW***
PELAPIS ISLANDNORTH
KAYONG
Avg Wind Speed 5.99 m/s at 50 m heightsPotential Wind Power
Generation 0.06 MW*
BITUNGNORTH
MINAHASA
Avg Wind Speed 5.97 m/s at 50 m heightsPotential Wind Power
Generation 50 MW**
BUNGOMEMEGORONTALO
Avg Wind Speed 5.48 m/s at 50 m heights
PALASA TANGKIPARIGI
MOUTONG
Avg Wind Speed 5.88 m/s at 50 m heights
WATTANGPULU
SIDRAP
Avg Wind Speed 7.04 m/s at 50 m heightsPotential Wind Power
Generation 100 MW**
PUNAGALAIKANG
TAKALAR
Avg Wind Speed 6.95 m/s at 50 m heights
ARUNGKEKEJENEPONTO
Avg Wind Speed 8.11 m/s at 50 m heightsPotential Wind Power
Generation 132.5 MW***
BUNGAIYASELAYAR
ISLAND
Avg Wind Speed 4.0 m/s at 24 m heightsPotential Wind Power
Generation 10 MW**
TEMBEREWEST NUSA TENGGARA
Avg Wind Speed 4.54m/s at 50 m heights
NUSA PENIDAKLUNGKUNG
Avg Wind Speed 4.9 m/s at 20 m heights
PALAKAHEMBIEAST
SUMBA
Avg Wind Speed 5.4 m/s at 50 m heightsPotential Wind Power
Generation 5.1 MW*
OELBUBUKTIMOR TENGAH
SELATAN
Avg Wind Speed 6.7 m/s at 50 m heightsPotential Wind Power
Generation 15 MW*
WEST KUPANGKUPANG
Avg Wind Speed 6.99 m/s at 50 m heightsPotential Wind Power
Generation 50 MW**
ADI JAYAKAIMANA
Avg Wind Speed 4.78 m/s at 50 m heightsPotential Wind Power
Generation 0.1 MW**
* Based on WHyPGen Pre-Feasibility Study at spesific area**
Estimated from WHyPGen Wind Resources Assessment
(WRA) on Potential Area*** Based on Technology Developers
Plan
POTENTIAL WIND POWER GENERATIONS IN INDONESIA
(Study at 23 locations in Indonesia)
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PengantarIndonesia memiliki beberapa lokasi yang potensial untuk
pengembangan Pembangkit Listrik Tenaga Bayu (PLTB). Mulai dari
Aceh, selatan pulau Jawa, Nusa Tenggara, Selatan dan Utara
Sulawesi, Kepulauan di Timur Indonesia sampai dengan Papua adalah
beberapa lokasi yang potensial untuk pengaplikasian PLTB.
Mulai dari pembangkit skala besar yang terhubung dengan
jaringan, sampai skala kecil di daerah pesisir dan pulau-pulai
terpencil, potensi ini harus didata, dipetakan dan
dikembangkan.
Untuk mendapatkan data potensi ini secara lengkap, maka perlu
dilakukan Wind Resources Assessment (WRA) agar didapatkan perkiraan
besaran energi yang dapat dibangkitkan di lokasi tersebut. Hasil
dari WRA ini sangat menujang untuk membangun studi kelayakan PLTB
yang lengkap.
WHyPGen-BPPT bertujuan untuk mendorong implementasi dan aplikasi
PLTB di Indonesia. WHyPGen-BPPT telah menyelesaikan WRA pada 23
lokasi dan melakukan kajian awal pada 10 lokasi yang potensial di
Indonesia.
Peta ini berisi data kecepatan angin, arah dominan, dan rapat
daya pada lokasi yang spesik. Peta ini dapat dijadikan dasar untuk
mengidentikasi dan mengembankan PLTB di area tersebut.
Kami harapkan peta, WRA dan kajian awal ini akan mendorong
aplikasi PLTB di Indonesia.
Dr. Andhika Prastawa, MSEEKepala Balai Besar Teknologi Energi,
BPPTNational Project Director WHyPGen-BPPT
PrefaceIndonesia has several location that potential to generate
wind power generation (WPG). From Aceh, Southern part of Java, East
Nusa Tenggara, South and North Sulawesi, Islands of Eastern part of
Indonesia until Papua at certain area have a potential to
implementation of wind power generation.
Ranging from the large-scale connected to the existing grid to
small-scale coastal and isolated islands, this potential must be
recorded, measured, mapped and developed.
To obtain complete data about it, it is necessary to do Wind
Resources Assessment (WRA) to estimate the future energy production
of a WPG at certain area. The results of WRA are needed to develop
a more complete wind farm Feasibility Study (FS).
Base on WHyPGen mission to encourage implementaion of wind
energy in Indonesia. WHyPGen-BPPT has completed WRA on 23 potential
locations and pre-FS on 10 location in Indonesia.
This map will show the wind speed, wind direction and the
potential power density at specic locations. This map could be use
as the basis to identied and develop the potential WPG in the
area.
We hope this maps, WRA and pre-FS will encourage the application
of WPG in Indonesia.
Dr. Andhika Prastawa, MSEEHead of Energy Technology Center,
BPPTNational Project Director WHyPGen-BPPT
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WRA Modeling MethodThe process of preparation of Wind Resources
Assessment (WRA), the use of WAsP (Wind Analysis Application
Program), with supporting several software such as : Global Mapper,
Surfer and Map Editor.
In this work, the following state of the art freely available
sources of data have been used, input data for WasP : Wind data, in
situ the measurement mast, with minimum 1 year period.
Others wind data from Mesoscale time series, speed and direction
(re-analysis of data from 3TIER downscaling).
Terrain that the data used was taken from the Digital Elevation
Model (DEM) - Satellite or spacecraft of Shuttle Radar Topographic
Mission (SRTM), 90m resolution.
Roughness length is taken from National Institue of Aeronautics
and Space (LAPAN) at Data and Remote Sensing Center, is overlaid
into vector maps by using Map Editor software.
The area of analysis which is 20 km (magnitude of the point of
reference sites).
Metodologi WRA
Wind Resources Assessment (WRA) dalam studi ini disusun
menggunakan WASP (wind analysis application program), dengan
didukung beberapa perangkat lunak seperti: global Mapper, Surfer
dan Peta Editor.
Data yang digunakan dalam studi ini sebagai input untuk WASP
adalah: Data Angin berdasarkan pengukuran in-situ dengan minimum
periode 1 tahun
pengukuran.
Data angin lainnya dalam bentuk time series berupa kecepatan dan
arah angin (re-analisis dari downscaling data 3TIER).
Data kondisi lapangan (terrain) yang digunakan diambil dari
Digital Elevation Model (DEM) yang diperoleh dari satelit atau
pesawat ruang angkasa Shuttle Radar Topographic Mission (SRTM)
dengan resolusi 90m.
Data mengenai luas tutupan lahan diperoleh dari Lembaga
Penerbangan dan Antariksa Nasional (LAPAN) dari Pusat Pengindraan
Jarak Jauh, yang diaplikasikan pada peta vector dengan
menggunakansoftware Map Editor.
Luas area yang dikaji adalah 20km (dihitung dari jarak terhadap
titik referensi di lokasi).
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ContentsPreface iWRA Modeling Method iiContents iii
Wind Resources Assessment (WRA)Peukan Bada, Aceh Besar 1Tanjung
Tinggi, Belitung 2Betok (Pulau Karimata), Kayong Utara 3Padang
(Pulau Karimata), Kayong Utara 4Pulau Pelapis, Kayong Utara 5Muara
Binuangeun, Lebak 6Ciemas, Sukabumi 7Cikelet, Garut 8Bukit Srandil,
Cilacap 9Harjobinangun, Cilacap 10Pantai Baron, Gunung Kidul
11Pantai Pandansimo, Bantul 12Pulau Nusa Penida, Klungkung
13Tembere, Lombok Timur 14Laipori, Sumba Timur 15Lifuleo, Kupang
Barat 16Oelbubuk, Timor Tengah Selatan 17Bungaiya, Selayar
18Arungkeke, Jeneponto 19Punaga Laikang, Takalar 20Waitang Pulu,
Sidrap 21Palasa, Parigi Moutong 22Tada, Parigi Moutong 23Bungomeme,
Gorontalo 24Bitung, Minahasa Utara 25Mapoaana, Buton 26Burangasi,
Buton Selatan 27Kaimana, Kaimana 28Nusa Ulan, Kaimana 29Adijaya,
Kaimana 30
Pre-Feasibility StudyPeukan Bada 01, Aceh Besar 31Peukan Bada
02, Aceh Besar 32Peukan Bada 03, Aceh Besar 33Tanjung Tinggi,
Belitung 34Betok (Pulau Karimata), Kayong Utara 35Padang (Pulau
Karimata), Kayong Utara 36Pulau Pelapis, Kayong Utara 37Muara
Binuangeun, Lebak 38Ciemas, Sukabumi 39Cikelet, Garut
40Harjobinangun, Purworejo 41Pantai Baron, Gunung Kidul 42Laipori,
Sumba Timur 43Oelbubuk, Timor Tengah Selatan 44
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Wind Energy Potential in Indonesia(Based on 10 pre-FS locations
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