Page 144 - Fluid Power Engineering
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production are models well work not Land-use is construction electricity for traditional very is a is impact. high. is data is data
available. energy wind most and regions do models convection. and low demand datasets based projects visual to wind wind high.
Factors data area of is unmet gathering wind of due gathering collecting
Other Little Significant this in is these for Traditional because intensity simple High of Cost met-tower high Siting challenge of Cost of Cost moderately
Considerations few a beyond difficult is terrain, good give models for used speeds. wind measured so low, is easily. translated High reliable. quite or forests to due density maps wind detailed areas—areas few farms. wind offshore low. is is flow wind on land areas. coastal in flow
Modeling Extrapolation kilometers noncomplex For microscale when results extrapolating Roughness be can data are Models roughness population and Reliable very in exist have that Roughness of Impact pronounced difficult Very of because local and and Resources
energy like winds data potential. potential. is regime effects. (From Redlinger, R. Y., Andersen, P. D., Morthorst, P. E. Wind Energy in the 21st Century, Palgrave, New York, 2002.) Wind to
wind Large-scale systems systems trade energy wind Wind local Respect
Wind for winds wind and wind Sparse energy data energy by
of suited low-pressure high wind wind wind data. with
Nature Easterlies Well generation. dominate. Seasonal Seasonal monsoon Very potential. High Sparse High Sparse dominated Regions
of
and semiarid Characteristics
Region plains Covers of parts America, Asia and and areas
of Temperate westerlies. sea Mountains 7-1
Type Arctic northern North Europe, Desert areas Tropics Open Coastal TABLE
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