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Wyoming's geography of high-altitude prairies with broad ridges makes the state an ideal site for the development of wind resources. Other factors that positively affect Wyoming's wind power development potential include transmission capabilities, [5] the high energy needs of nearby population centers, [5] high public support of wind power development in the state (97% support), [6] and the ...
Highest average annual total (observed over 10 years ... the wind speeds were re-examined and adjusted to a maximum official wind speed of 321 mph (516.6 km/h).
Much of this is due to the topography of the state. Summers in Wyoming are warm with July high temperatures averaging between 80 and 90 °F (27 and 32 °C) in most of the state. With increasing elevation, however, this average drops rapidly with locations above 9,000 feet (2,700 m) averaging around 70 °F (21 °C).
Wind rips trees down, causes major damage in Wyoming town
An anemometer is commonly used to measure wind speed. Global distribution of wind speed at 10m above ground averaged over the years 1981–2010 from the CHELSA-BIOCLIM+ data set [1] In meteorology, wind speed, or wind flow speed, is a fundamental atmospheric quantity caused by air moving from high to low pressure, usually due to changes in ...
While winds in Texas and Iowa often blow at night, wind increases during the day in Wyoming, corresponding with consumption, as peak demand is late afternoon. [17] The wind is Class 7, [18] and the wind capacity factor is around 46%. [19] The first phase of 1,500 MW is expected to yield 6 TWh per year. [20]
The Cheyenne Botanic Gardens in Cheyenne must deal with one of the more harsh climates in the lower 48 states. Cheyenne ranks #1 in average hail storms (10 per year), 4th in daily average wind speed (daily average 13 mph), has the fewest days with winter snow cover compared with other cities on the central front range of the Rocky Mountains, sits at 6,000 ft. elevation which causes cooler ...
For power contracts made in the year 2014, the average price of wind power fell to 2.5¢/kWh. [42] The capacity factor is the ratio of power actually produced divided by the nameplate capacity of the turbines. The overall average capacity factor for wind generation in the US increased from 31.7% in 2008, to 32.3% in 2013. [43]