A turbine of this size will produce around 8,000 kWh of electricity per year in 12 -
mph average winds.
The Windspire has a propeller - free vertical - axis design, and is expected to produce about 1800 kilowatt hours per year in 11
mph average wind conditions.
Due to the vertical axis design, sound levels were tested at 6 decibels above ambient, rendering it virtually inaudible and the 1.2 kW Windspire installed at the [Beekman 1802] farm will produce approximately 2000 kilowatt hours per year in 11
mph average wind.
Not exact matches
At the time of publication,
average winds of 21
mph are expected throughout the game.
In games with
average wind speeds of 10 +
MPH, the Under went 17 - 5.
Since 2003, the under has hit in about 56 % of games in which the
wind has
averaged 10
MPH or greater.
Meteorologists are forecasting temperatures of 65 degrees Fahrenheit, but
average winds speeds will range between 9 - 10
mph blowing out to center field.
Meteorologists are forecasting
average winds speeds of 17
mph with gale force gusts up to 40
mph.
As you can see, the under has performed extremely well when the
average wind speed is at least 10 miles per hour (
mph) over the duration of the game.
At the time of publication, the forecast calls for
average wind speeds of 16
MPH blowing in from center field.
The false - color images show a monstrous storm 20 times as large as an
average Earth hurricane — the eye alone is 1,250 miles across — with
winds reaching 300
mph.
The
average season sees 12 named storms, including six hurricanes, three major with sustained
winds greater than 110
mph.
The
wind never settles, but on his first official run Lilja heads uphill into the sporadic gusts and rips off an
average speed of 271.2
mph over the flying kilometer.
HERE»S WHAT I DO N'T LIKE: Loud
wind noise (anytime I exceed 40 - 45
mph), makes it hard to hear the radio at normal volume; intrusive road noise, which I corrected by swapping out the standard Goodyear tires with Continental tires; lackluster acceleration for a V6 engine, CVT tends to lose momentum when you lift your foot off of the gas pedal — often jerky when accelerating and decelerating while in motion and when accelerating from a dead stop; as mentioned by another reviewer, accelerator hesitates before catching when shifting from reverse to drive; bumps in the road are not well absorbed (the 2016 model may have addressed this issue); no power to windows after you shut off the engine; no auto door locks; poor V6 fuel efficiency
averaging around 24 MPGs combined; trunk lid's arms and safety feature makes it heavy and sometimes hard to lift open; Infotainment system does understand most voice commands; and Harmon Kardon speakers are sometimes crackly.
Wind averages pick up only slightly to about 10
mph and the Beaufort percentage stays around the same as October at 27 %.
Boston, Massachusetts
Average wind speed: 12.3
mph Average windiest month: March Record
wind gust: 81
mph
Wichita, Kansas
Average wind speed: 12.2
mph Average windiest month: April Record
wind gust: 101
mph, July 11, 1993
Fargo, North Dakota
Average wind speed: 12.2
mph Average windiest month: April Record
wind gust: 115
mph on June 9, 1959
Oklahoma City, Oklahoma
Average wind speed: 12.2
mph Average windiest month: March Record
wind gust: 107
mph, June 15, 1955
Buffalo, New York
Average wind speed: 11.8
mph Average windiest month: January Record
wind gust: 82
mph, February 16, 1967
Well you have to consider that the
wind energy is directly related to solar energy and given the average 1/2 acre required for solar power you need a little more ground space for your 10KW Wind Motor (BTW, less then 10 % of the US population is located where there is a possibility of a 12 MPH wind every day for at least 6 hours from which you would need to extract about 36KW per ho
wind energy is directly related to solar energy and given the
average 1/2 acre required for solar power you need a little more ground space for your 10KW
Wind Motor (BTW, less then 10 % of the US population is located where there is a possibility of a 12 MPH wind every day for at least 6 hours from which you would need to extract about 36KW per ho
Wind Motor (BTW, less then 10 % of the US population is located where there is a possibility of a 12
MPH wind every day for at least 6 hours from which you would need to extract about 36KW per ho
wind every day for at least 6 hours from which you would need to extract about 36KW per hour.)
The team found that the
average boost in
wind speed during a 24 - hour intensification event is about 13
mph more than it was 30 years ago — on
average about 3.8 knots (4.3
mph) for each of the three decades studied.
The potential generating capacity was calculated from the total offshore area within 50 nautical miles of shore, in areas where
average annual
wind speeds are at least 7 meters per second (approx. 16
mph) at a height of 90 meters, assuming 5 MW of
wind turbines could be placed in every square km.
Where D ^ 2 is the blade diameter in feet squared, and V ^ 3 is the
wind velocity cubed in
mph — this is the year round
average wind speed — see
wind maps below.
Wherever you have open spaces with
average sustained
winds 9
mph (4.5 m / s) or faster, there's money - saving potential for using
wind energy to help power your business.
Based on data available from the National Renewable Energy Lab, the area may support
average wind speeds of roughly 8.5 meter per second (19
MPH), with annual capacity factors over 42 %.
The 18.5» tall omni - directional V2 turbines are rated at 4.5 kw, begin generating electricity at
wind speeds of 8.9
mph (below the city's annual
average wind speed), and the project is a good example of what is possible with small
wind power integrated into building designs.
Over a period of time, usually a year, the actual production is
averaged out to what is called the «capacity factor», which, is necessarily much less than the the nameplate capacity, since that is attained only in
wind speeds from about 30 to 55
mph.