Processing of weather radar raw IQ-data towards the identification and correction of wind turbine interference : Project RIWER: Removing the Influence of Wind Park Echoes in Weather Radar Measurements

The increasing demand for renewable energy encourages the installation of wind turbine sites for power generation across Europe, thus supporting the important energy transition, but also having a negative impact on weather radar measurements near wind turbine sites. In recent years, the fast constru...

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Published in2021 Kleinheubach Conference p. 1
Main Authors Patel, Bhavinkumar Vishnubhai, Colak, Emre, Vyas, Aastha, Chandra, Madhukar, Koster, Uwe, Blank, Ulrike, Teschke, Gerd, Tracksdorf, Patrick, Sauter, Tanja, Sudhaus, Dirk, Meyne, Sascha
Format Conference Proceeding
LanguageEnglish
Published German Member Committee of URSI 28.09.2021
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Summary:The increasing demand for renewable energy encourages the installation of wind turbine sites for power generation across Europe, thus supporting the important energy transition, but also having a negative impact on weather radar measurements near wind turbine sites. In recent years, the fast construction, expansion and repowering of wind parks have been a major source of concern for the weather radar community and meteorological services. Among others because wind turbines are extremely tall, reflective, and moving objects, which make them a source of interference that is hard to distinguish from meteorological echoes and therefore difficult to filter and even more difficult to correct. Polarimetric C-Band Doppler weather radar measurements enable us to analyse and understand the impact of wind turbine interference on meteorological weather radar echoes and to build up knowledge.The main idea is to analyse the raw IQ-data in order to quantify the behaviour of wind turbine interference with meteorological scattering. As a first step in this direction, this paper will focus on the derivation and analysis of radar moments such as Reflectivity (Z), Differential Reflectivity (ZDR), Differential Phase (PHIDP), and Mean Doppler Velocity (V). We will consider two cases: (i) events with precipitation, and (ii) events without precipitation, in order to understand and model the impact of wind turbine interference.For this purpose, weather radar measurements from Deutscher Wetterdienst (DWD), recorded under the aegis of the RIWER project (Removing the Influence of Wind Park Echoes in Weather Radar Measurements), are presented, analysed and discussed in detail.
DOI:10.23919/IEEECONF54431.2021.9598419