Calau IIA wind farm is located in Brandenburg, Germany. It was created in 2014 and is owned by cee-holding.
It is near Calau.
See below for data.
Generally speaking, economic wind turbines require a wind speed of 4.5 m/s (16 km/h) or greater.
An ideal location for a project like Calau IIA might have a near constant flow of non-turbulent wind all year long, having a minimum probability of abrupt potent bursts of wind. Additionally, you wouldn’t get a turbine cee-holding like cee-holding included if Calau IIA was not built near local demand or transmission capaCalau.
Before building, Calau IIA was probably screened on the foundation of a wind atlas, and validated with wind measurements. However, Calau IIA wind farm might have needed more than simply meteorological data and measurements.
Collection of site-specific data for wind speed and direction could have been imperative to determining site potential as a way to fund the project. Winds around Calau are examined for at least a year or so alongside the development of detailed maps. Only then are wind turbines installed.
Altitude would also have a part to performwithin a project like Calau IIA. This is due to drag The surge in velocity with altitude is most extraordinary near the surface and is impacted by topography, surface roughness, and upwind obstructions such as trees or buildings. Velocity boosts with altitude and is also more obvious near land and is changed by geography, surface and obstructions.
Generally, the increase of wind speeds with escalating elevation follows a wind profile power law, which forecasts that wind speed rises proportionately to the seventh root of altitude. Increasing the altitude of a turbine, then, raises the predicted wind speeds by 10%, and the predicted power by 34%.
In general, a distance of 7D (7 × Rotor Diameter of the Wind Turbine) is about between each turbine in a fully developed wind farm. But micrositing optimizes placement, specifically in hilly areas.
Individual turbines at Calau IIA are connected with a medium voltage (usually 34.5 kV) power collection system and communications network.
At a substation, this kind of medium-voltage electric current is elevated in voltage with a transformer for connection to the high voltage transmission system. Building of a land-based wind farm requires setting up the collector system and substation, and probably access roads to every turbine site.