When looking at the transmission line profile view, the wind span is defined as half of the sum of adjacent spans. The weight span is defined as the distance from low point sag of one span to the low point sag of the next span.
To clarify, these values have to do with loading of a supporting structure (transmission line pole structure). with 3 structures in a row, there are 2 cable spans. One half of the sum of the 2 spans will give the wind span. This will be used to calculate the force applied to the structure due to a horizontal wind blowing on the conductors.
Because the cable takes the form of a catenary curve when hung between 2 fixed points, there will be a low point between each of the structures. The distance between these low points will be the weight span for the middle structure. This value will be used to calculate the weight of the cable that the structure must support.
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The meaning of the name is `Persian wind`
It means wind and lightnining
The meaning of blew down is being knocked down by the wind or something windy.
re- is a prefix meaning 'to do again'. To rewind is to wind again.
Its depends on location and type of towers. Supposed the transmission line is erected at hill area and second line is erected in desert area and third one in forest area. Then the allowable value of weight span and wind span ratio in transmission line will different. Also this ratio will depends on types of tower . Like the value is different in 132KV, 220KV , 400KV and 765KV.
spains wind power in 23
The Weight of the Wind was created in 1986.
Arm span is a measure of the arm
The maximum weight capacity for a 2x6 span is typically around 50 pounds per square foot, but it can vary depending on the type of wood and the length of the span.
"Spic and span" means extremely clean and neat.
Get wind of
how much year
That depends on the anticipated weight and the span.
The word span is a noun. It can also be a verb meaning to extend over a time period.
The blade span of a typical utility-scale wind turbine ranges from about 50 meters to 120 meters, with larger turbines now reaching spans exceeding 160 meters. The size of the blade span affects the amount of energy that can be captured from the wind, with larger spans capable of capturing more energy.
span