Damaobayin No.4 (Longyuan) wind farm is situated in Inner Mongolia, China. It was in fact brought online in 2010 and is owned by .
It is near Baotou Damaoqi.
See below for data.
Wind farms, as a general rule demand wind speeds of 4.5 metres per second or higher.
A perfect place for a project like Damaobayin No.4 (Longyuan) might have a near constant flow of non-turbulent wind throughout the year, having a minimum likelihood of sudden potent bursts of wind. Additionally, you wouldn’t get a turbine like included if Damaobayin No.4 (Longyuan) was not built near local demand or transmission capaBaotou Damaoqi.
During the planning stages the Damaobayin No.4 (Longyuan) wind farm would’ve been checked and authenticated through wind measurements. Meteorological wind data alone is usually not sufficient for correct siting of a large wind power project.
Site data around Baotou Damaoqi would have been a major aspect in the ‘development’ decision Winds around Baotou Damaoqi are analysed for at least a year or so alongside the introduction of detailed maps. Only then are wind turbines installed.
Altitude would also have a part to performin a project like Damaobayin No.4 (Longyuan). This is because of drag The surge in velocity with altitude is most dramatic close to the surface and is affected by geography, surface roughness, and upwind limitations such as trees or buildings. Velocity rises with altitude and is also more distinct near land and is altered by geography, surface and obstacles.
Typically, the growth of wind speeds with growing elevation follows a wind profile power law, which anticipates that wind speed rises proportionately to the seventh root of altitude. Increasing the height of a turbine, then, enhances the expected wind speeds by 10%, and the anticipated power by 34%.
In general, a distance of 7D (7 × Rotor Diameter of the Wind Turbine) is set between each turbine in a fully developed wind farm. But micrositing optimizes placement, specifically in hilly areas.
Individual turbines at Damaobayin No.4 (Longyuan) are interconnected with a medium voltage (usually 34.5 kV) power collection system and communications network.
At a substation, this particular medium-voltage electric energy is increased in voltage using a transformer for connection to the high voltage transmission system. Development of a land-based wind farm requires installation of the collector system and substation, and possibly roads to each and every turbine site.