Comparison and Verification of Rainfall Validation with Parsivel2 and X-band Dual-Polarization Radar

2019 International Conference on Meteorology Observations (ICMO) Pub Date : 2019-12-01 DOI:10.1109/ICMO49322.2019.9026075

Yang Yating, Su Debin, Lu Fangyue, Cao Yang, K. Lu

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Abstract

Observations acquired from Parsivel2 disdrometer located at the haidian station and X-band dual-polarization radar of IAP (Institute of Atmospheric Physics) were compared and analyzed for the process of severe weather in Beijing on July 20, 2016. The radar reflectivity factor from disdrometer and radar are matched and compared using multiple averaging schemes with different grid sizes in neighboring regions considering the consistency of time and space as well. The accuracy of QPE (quantitative precipitation estimation) will be affected by the attenuation of X-band radar, and can be evaluated precisely from disdrometer observation. In this study, disdrometer was used to obtain the precipitation intensity and reflectivity factor. Based on raindrop size distribution observation and the least square method, a Z/R relation was simulated and applied to QPE calculation, QPE from Z/R relationship of convention and correction, polarization parameters derived, disdrometer observed and from automatic rain gauges were compared and validated. The results show that the corrected QPE were much closer to the Parsivel2 observation, and the QPE from polarization parameter was the optimal one.

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Parsivel2和x波段双偏振雷达降雨验证的比较与验证

利用海淀站Parsivel2分差仪和大气物理研究所x波段双偏振雷达的观测资料，对2016年7月20日北京地区的恶劣天气过程进行了对比分析。考虑到时间和空间的一致性，采用相邻区域不同网格大小的多种平均方案对差测仪和雷达的雷达反射率因子进行匹配和比较。定量降水估算的精度会受到x波段雷达衰减的影响，但可以通过分差仪观测来精确估算。在本研究中，利用分差仪获得降水强度和反射率因子。基于雨滴粒径分布观测和最小二乘法，模拟了Z/R关系，并将其应用于QPE计算，将常规和修正的Z/R关系、推导的极化参数、测量的分差仪和自动雨量计的分差进行了比较和验证。结果表明，修正后的QPE更接近于Parsivel2的观测值，由偏振参数得到的QPE是最优的QPE。

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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2019 International Conference on Meteorology Observations (ICMO)

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