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

IF 0.6 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC
Bhavinkumar Vishnubhai Patel, Emre Colak, Aastha Vyas, Madhu Chandra, Ralf Zichner
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引用次数: 0

Abstract

Abstract. 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 Propagation Phase (PHIDP), Mean Doppler Velocity (V), and Correlation Coefficient (RHOHV). 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 (WTI). For this purpose, weather radar measurements from Deutscher Wetterdienst (DWD), recorded under the aegis of the project RIWER (Removing the Influence of Wind Park Echoes in Weather Radar Measurements), are presented, analysed and discussed in detail.
气象雷达原始iq数据的处理对风力机干扰的识别和校正——RIWER项目:消除风园回波对气象雷达测量的影响
摘要近年来,风电场的快速建设、扩建和改造已成为气象雷达社区和气象服务部门关注的主要问题。其中一个原因是,风力涡轮机是非常高的、反射的、移动的物体,这使得它们成为难以与气象回波区分的干扰源,因此难以过滤,更难以纠正。偏振c波段多普勒天气雷达测量使我们能够分析和了解风力涡轮机干扰对气象天气雷达回波的影响,并积累知识。主要的想法是分析原始的iq数据,以便量化风力涡轮机对气象散射的干扰行为。作为这个方向的第一步,本文将重点推导和分析雷达矩,如反射率(Z)、差分反射率(ZDR)、差分传播相位(PHIDP)、平均多普勒速度(V)和相关系数(RHOHV)。我们将考虑两种情况:(i)有降水的事件和(ii)没有降水的事件,以便理解和模拟风力涡轮机干扰(WTI)的影响。为此,本文详细介绍、分析和讨论了在RIWER项目(消除天气雷达测量中风场回波的影响)支持下,德国天气雷达(DWD)的天气雷达测量结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Advances in Radio Science
Advances in Radio Science ENGINEERING, ELECTRICAL & ELECTRONIC-
CiteScore
0.90
自引率
0.00%
发文量
3
审稿时长
45 weeks
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