Pre-Study Service on Feasibility of
Wind Energy Potential on Banten
Muhammad Rafi Al-Hariri Nasution, Armi
Susandi, and Ma...
BACKGROUND AND MOTIVATION
• The demand of Electrical energy on Indonesia has been Increasing
every year.
190,000,000
200,0...
BACKGROUND AND MOTIVATION
State Electricity Company (PLN), as an official institution to provide
electrical energy on Indo...
BACKGROUND AND MOTIVATION
Having an issue that Fossil energy, one of the main component and
resource to provide Energy in ...
Renewable energy become an Alternatif solution to
provide and supply the energy needs through Life!
Renewable Energy is :
...
Renewable Energy Potential
Non-Fossil
Energy
Resources
Installed
Capacity
Water Energy 75,670 MW 4,200 MW
Geothermal 27,51...
FEED in Tariff
Geothermal : 0.115-0.29 USD/kWh
Solid Biomass: 1,450 IDR/kWh
Hydropower: 0.068 USD/kWh
Biogass: 0.136 USD/k...
FEED IN TARIFF POSSIBILITIES
The range of feed in tariff in IndonesiA is about
0.0925 USD to 0.208 USD
Source : Kompas, 06...
PERTAMINA Roles:
Semangat Terbarukan or
Renewable Spirit
Pertamina Mission
Managing Oil, gases, and Renewable Energy
with Integrated approach, based on Strong
Commercial principles
WIND ENERGY
POTENTIAL ON
INDONESIA
WaSP v.10 Software
WAsP is a powerful – yet simple to use – PC software for
estimating the annual energy production (AEP) ...
Wind Speed and Power
Contour on 30 Meter Height
Wind Speed and Power
Contour on 50 Meter Height
Wind Speed and Power
Contour on 100 Meter Height
Overlay Wind Speed and Power
with Population Maps
Wind Turbine Planned Maps
Pre-Study Service on Feasibility of
Wind Energy Potential on Banten
Lampung
Banten
Kalimantan Selatan
Activity Information
• Start : 03 April 2012
• End : 03 April 2014
• Location : Kutakarang Village, Cibitung Dist.,
Pandeg...
Project Goals and Activity Scope
This project has goals to provide
instruments for observing wind and solar
energy potenti...
Project Report
Instruments
Source : http://www.tanilbabayweather.com/graphics/wx_aws.jpg
The construction of AWS Tower
AWS Package that has been
established
MEASUREMENT RESULT
AND DATA ANALYSIS
Wind Rose on 30 Meter Height
Dominant wind came from South-East direction
Wind Rose for Banten Region
50 m Height
Dominant wind came from South-East and
South Direction.
WIND SPEED ON 10 METER HEIGHT
Kutakarang Village, Cibitung Dist.,
Pandeglang Regency, Banten
Max wind speed =11.45 m/s,
Av...
WIND SPEED ON 30 METER HEIGHT
Kutakarang Village, Cibitung Dist.,
Pandeglang Regency, Banten
Max wind speed =13.22 m/s,
Av...
WIND SPEED ON 50 METER HEIGHT
Kutakarang Village, Cibitung Dist.,
Pandeglang Regency, Banten
Max wind speed =14.12 m/s,
Av...
CONCLUSION
WIND TURBINE
Senvion 6.2 MW
Cut-in wind speed: 5 m/s
Rotor diameter: 152 m
Swept area: 18,136 m2
Rated power: 6,200 kW
htt...
Wind Turbine Development on
150m Height
Max wind speed = 16.67 m/s,
Average wind speed = 6.73 m/s
Type of turbine = 6.2 MW...
• Due to Electrical needs and Issues, we need to develop
power plant on this Areas (Banten)
• Banten has good potential du...
Thank You

of 35

Pre-Study Service on Feasibility of Wind Energy Potential 1.2

Published on: Mar 4, 2016
Source: www.slideshare.net


Transcripts - Pre-Study Service on Feasibility of Wind Energy Potential 1.2

  • 1. Pre-Study Service on Feasibility of Wind Energy Potential on Banten Muhammad Rafi Al-Hariri Nasution, Armi Susandi, and Mamad Tamamadin Department of Meteorology, Bandung Institute of Technology, Indonesia 5th Annual Symposium of Asian INstitute for Environmental Research and enerGY
  • 2. BACKGROUND AND MOTIVATION • The demand of Electrical energy on Indonesia has been Increasing every year. 190,000,000 200,000,000 210,000,000 220,000,000 230,000,000 240,000,000 250,000,000 260,000,000 2001 2003 2005 2007 2009 2011 2013 Amount Population Growth Population Source : World Bank 2015
  • 3. BACKGROUND AND MOTIVATION State Electricity Company (PLN), as an official institution to provide electrical energy on Indonesia, still can not supply the energy through Indonesia Geographic condition, low demand of the energy, and the high cost as obstacles for supplying the system development.
  • 4. BACKGROUND AND MOTIVATION Having an issue that Fossil energy, one of the main component and resource to provide Energy in Indonesia, has reached its limits. Source : Environmentalist urges universities to take fossil fuels off back burner
  • 5. Renewable energy become an Alternatif solution to provide and supply the energy needs through Life! Renewable Energy is : • Reducing the dependecy on Fossil Energy • Supplying Energy through local and regional scale • Clean and Green Energy which reducing GHG emission • Reducing the amount of Energy subsidy (which consume 20% of State budget) • Using the potential of local energy resources
  • 6. Renewable Energy Potential Non-Fossil Energy Resources Installed Capacity Water Energy 75,670 MW 4,200 MW Geothermal 27,510 MW 1,052 MW Micro Hydro 500 MW 86,1 MW Biomass 49.810 MW 445 MW Solar Energy 4.80 kWh/m2/hari 12.2 MW Wind Energy 9,290 MW 1.1 MW Source : Blueprint National Energy Management 2010-2025, ESDM
  • 7. FEED in Tariff Geothermal : 0.115-0.29 USD/kWh Solid Biomass: 1,450 IDR/kWh Hydropower: 0.068 USD/kWh Biogass: 0.136 USD/kWh Solar Cell: 0.25-0.30 USD/kWh
  • 8. FEED IN TARIFF POSSIBILITIES The range of feed in tariff in IndonesiA is about 0.0925 USD to 0.208 USD Source : Kompas, 06 Sept 2012
  • 9. PERTAMINA Roles: Semangat Terbarukan or Renewable Spirit
  • 10. Pertamina Mission Managing Oil, gases, and Renewable Energy with Integrated approach, based on Strong Commercial principles
  • 11. WIND ENERGY POTENTIAL ON INDONESIA
  • 12. WaSP v.10 Software WAsP is a powerful – yet simple to use – PC software for estimating the annual energy production (AEP) from wind turbines and wind farms. It contains tools and models for all steps in the process from assessment of wind resource to the wind turbines AEP and can be used all over the world – in all kinds of terrain.
  • 13. Wind Speed and Power Contour on 30 Meter Height
  • 14. Wind Speed and Power Contour on 50 Meter Height
  • 15. Wind Speed and Power Contour on 100 Meter Height
  • 16. Overlay Wind Speed and Power with Population Maps
  • 17. Wind Turbine Planned Maps
  • 18. Pre-Study Service on Feasibility of Wind Energy Potential on Banten Lampung Banten Kalimantan Selatan
  • 19. Activity Information • Start : 03 April 2012 • End : 03 April 2014 • Location : Kutakarang Village, Cibitung Dist., Pandeglang Regency, Banten Corporation :
  • 20. Project Goals and Activity Scope This project has goals to provide instruments for observing wind and solar energy potential, tower and instruments instalation, and monitoring the data.
  • 21. Project Report
  • 22. Instruments Source : http://www.tanilbabayweather.com/graphics/wx_aws.jpg
  • 23. The construction of AWS Tower
  • 24. AWS Package that has been established
  • 25. MEASUREMENT RESULT AND DATA ANALYSIS
  • 26. Wind Rose on 30 Meter Height Dominant wind came from South-East direction
  • 27. Wind Rose for Banten Region 50 m Height Dominant wind came from South-East and South Direction.
  • 28. WIND SPEED ON 10 METER HEIGHT Kutakarang Village, Cibitung Dist., Pandeglang Regency, Banten Max wind speed =11.45 m/s, Average wind speed = 4.55 m/s Wind speed on Banten Region on the 10m height
  • 29. WIND SPEED ON 30 METER HEIGHT Kutakarang Village, Cibitung Dist., Pandeglang Regency, Banten Max wind speed =13.22 m/s, Average wind speed = 5.35 m/s Wind speed on Banten Region on the 30m height
  • 30. WIND SPEED ON 50 METER HEIGHT Kutakarang Village, Cibitung Dist., Pandeglang Regency, Banten Max wind speed =14.12 m/s, Average wind speed = 5.7 m/s Wind speed on Banten Region on the 50m height
  • 31. CONCLUSION
  • 32. WIND TURBINE Senvion 6.2 MW Cut-in wind speed: 5 m/s Rotor diameter: 152 m Swept area: 18,136 m2 Rated power: 6,200 kW http://www.senvion.com/
  • 33. Wind Turbine Development on 150m Height Max wind speed = 16.67 m/s, Average wind speed = 6.73 m/s Type of turbine = 6.2 MW Cut-in wind speed: 5 m/s Rotor diameter: 152 m Swept area: 18,136 m2 Rated power: 6,200 kW Wind speed on Banten Region on the 150m height
  • 34. • Due to Electrical needs and Issues, we need to develop power plant on this Areas (Banten) • Banten has good potential due to its wind speed average, and we can develop Medium and High-class wind turbine on it. • According to wind power equation, the Income Potential of wind energy is 1.069 MWh or 16.036 MWd • We can reduce 1.076 tons CO2/hour or 9,434 tons CO2/ year.
  • 35. Thank You 

Related Documents