Articles | Volume 14
https://doi.org/10.5194/ars-14-17-2016
https://doi.org/10.5194/ars-14-17-2016
28 Sep 2016
 | 28 Sep 2016

Uncertainty contribution of a wind turbine to the electric field of a DVOR antenna as a function of wind direction and rotor position

Sergei Sandmann and Heyno Garbe

Abstract. The presence of a wind turbine (WT) has the potential to distort electromagnetic fields emitted by terrestrial radio navigation aids. In this paper especially the field distortion of a Doppler Very High Frequency Omnidirectional Radio Range (DVOR) surveillance navigation system is investigated as a function of wind direction and rotor position. Therefor, the field distribution of a DVOR is simulated in the surrounding of a WT for 104 combinations of the angles of wind direction and rotor position. Furthermore, these calculations are executed for two different rotor diameters and 10 steps of distance between DVOR and WT in the range of 10 km. Based on the calculated data a method to estimate the maximum field distortion is developed. It is shown that the presented method allows to approximate the worst case field distortion with the results of two general simulation setups. Eliminating the need of simulating all possible geometric constellations of the WT this method hereby offers the benefit of significantly reduced simulation effort.

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Short summary
In this paper the electromagnetic field distortion of a DVOR surveillance navigation system in presence of a wind turbine (WT) is investigated as a function of wind direction and rotor position. Therefor regularities of the distortion behavior were determined by 2040 simulations. Based on the calculated data a method is developed which allows to approximate the worst case distortion with the results of only two simplified simulations, which significantly reduces simulation effort.