20_wind
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Bangladesh Wind Resource Layer Source: Risø Technical University of Denmark (Risø DTU) (2008) Description: Simulated annual mean wind power density (W/m2).at 50 m height above ground level as described in the mesoscale model. Data has been summarized into one-quarter power class intervals, calculating an average power density value within the interval area. Spatial Resolution: 5 km
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Nicaragua Wind Resource Layer Source: National Renewable Energy Laboratory (NREL) and AWS Truepower (2004) Description: Annual mean wind power density (W/m2) at 50 m height above ground level. Data has been summarized into one-quarter power class intervals, calculating an average power density value within the interval area. Spatial Resolution: 1 km
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Sri Lanka Wind Resource Layer Source: National Renewable Energy Laboratory (NREL) and AWS Truepower (2008) Description: Annual and monthly mean wind power density (W/m2) and wind speed (m/s) at 50 m height above ground level. Other wind profile parameters are included for use by HOMER to simulate an hourly wind profile. Spatial Resolution: 400 m
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Pakistan Wind Resource Layer Source: National Renewable Energy Laboratory (NREL) and AWS Truepower (2007) Description: Annual mean wind power density (W/m2) at 50 m height above ground level. Data has been summarized into one-quarter power class intervals, calculating an average power density value within the interval area. Spatial Resolution: 1 km
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Nepal Wind Resource Layer Source: Risø Technical University of Denmark (Risø DTU) (2008) Description: Simulated annual mean wind power density (W/m2).at 50 m height above ground level as described in the mesoscale model. Data has been summarized into one-quarter power class intervals, calculating an average power density value within the interval area. Spatial Resolution: 5 km
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Cambodia Wind Resource Layer Source: Wind Energy Resource Atlas of Southeast Asia (2001) Description: Annual mean wind power density (W/m2) at 65 m height above ground level. Data has been summarized into one-quarter power class intervals, calculating an average power density value within the interval area. Spatial Resolution: 1 km
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Guatemala Wind Resource Layer Source: National Renewable Energy Laboratory (NREL) and AWS Truepower (2004) Description: Annual mean wind power density (W/m2) at 50 m height above ground level. Data has been summarized into one-quarter power class intervals, calculating an average power density value within the interval area. Spatial Resolution: 1 km
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Ghana Wind Resource Layer Source: National Renewable Energy Laboratory (NREL) and AWS Truepower (2004) Description: Annual mean wind power density (W/m2) at 50 m height above ground level. Data has been summarized into one-quarter power class intervals, calculating an average power density value within the interval area. Spatial Resolution: 1 km
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Oaxaca Wind Resource Layer Source: National Renewable Energy Laboratory (NREL) and AWS Truepower (2003) Description: Annual mean wind power density (W/m2) at 50 m height above ground level. Data has been summarized into one-quarter power class intervals, calculating an average power density value within the interval area. Spatial Resolution: 400 m
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Honduras Wind Resource Layer Source: National Renewable Energy Laboratory (NREL) and AWS Truepower (2004) Description: Annual mean wind power density (W/m2) at 50 m height above ground level. Data has been summarized into one-quarter power class intervals, calculating an average power density value within the interval area. Spatial Resolution: 1 km