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Wind power energy content (kW/m2). | |||
'''Source:''' | '''Source:''' | ||
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This layer is for information purposes only; it can help deciding which areas to give preference when planning for new wind parks. | This layer is for information purposes only; it can help deciding which areas to give preference when planning for new wind parks. | ||
This layer is only available for the Baltic Sea Edition. | |||
Return to [[Categories and Layers#tab=Environmental conditions|environmental conditions]]. | |||
=North Sea= | =North Sea= | ||
Not applicable. | |||
This layer is not available in the North Sea Edition. | |||
=Baltic Sea= | =Baltic Sea= | ||
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===Data Source=== | ===Data Source=== | ||
Baltic LINes project output provided directly by the project's partners (SwAM, RI.SE). For more info see the full report [https://vasab.org/wp-content/uploads/2019/05/Baltic-LINes-2030-and-2050-Baltic-Sea-Energy-Scenarios.pdf here] | Baltic LINes project output provided directly by the project's partners (SwAM, RI.SE). For more info see the full report [https://vasab.org/wp-content/uploads/2019/05/Baltic-LINes-2030-and-2050-Baltic-Sea-Energy-Scenarios.pdf here] | ||
===Original Title=== | ===Original Title=== | ||
Wind Resource Density. | Wind Resource Density. | ||
===Description=== | |||
Usable power density (in W/m2) of wind speeds in the Baltic Sea based on numerical simulated data from coastDat<sup>1</sup>. Usable power density implies the wind power available based on the wind speed distribution (Ingmarsson P., Hüffmeier J., 2019). | |||
The usable power input is calculated according to the standard methods used for [http://drømstørre.dk/wp-content/wind/miller/windpower%20web/en/tour/wres/powdensi.htm wind atlases]) (Ingmarsson P., Hüffmeier J., 2019). | |||
<sup>1</sup>"coastDat is a model-based data bank developed mainly for the assessment of long-term changes in data sparse regions. A sequence of numerical models is employed to reconstruct all aspects of marine climate (such as storms, waves, surges etc.) over many decades of years relying only on large-scale information such as large-scale atmospheric conditions." | |||
'''Source:''' | |||
Ingmarsson P., Hüffmeier J. (2019). "2030 and 2050 Baltic Sea Energy Scenarios - Ocean Energy". Retrieved from: [https://vasab.org/wp-content/uploads/2019/05/Baltic-LINes-2030-and-2050-Baltic-Sea-Energy-Scenarios.pdf vasab.org], accessed on 2022-03-15. | |||
===Creation Date=== | ===Creation Date=== | ||
Not available. Data received on 2018-09-12. | Not available. Data received on 2018-09-12. | ||
===Methodology=== | ===Methodology=== | ||
Reclassified values into qualitative classes from "Very Low" to "Very High". Reprojected the geodata layer to Lambert Azimuthal Equal Area (EPSG:3035). | Reclassified values into qualitative classes from "Very Low" to "Very High". Reprojected the geodata layer to Lambert Azimuthal Equal Area (EPSG:3035). | ||
==Western Baltic Sea== | |||
The Wind Density layer in the Western Baltic Sea Edition remains consistent with that featured in the Baltic Sea edition. | |||
=Clyde Marine Region= | =Clyde Marine Region= | ||
Not applicable. | |||
This layer is not available in the Clyde Marine Region Edition. | |||
=Adriatic Sea= | =Adriatic Sea= | ||
Not applicable. | |||
This layer is not available in the Adriatic Sea Edition. | |||
= | =Eastern Mediterranean Sea= | ||
Not applicable. | |||
This layer is not present in the Eastern Mediterranean Sea. | |||
<headertabs/> | <headertabs/> |
Latest revision as of 14:36, 12 June 2024
This page was last edited on 12 June 2024, at 14:36. Content is available under GPLv3 unless otherwise noted.