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Analysis of Two Convective Storms Using Polarimetric X-Band Radar and Satellite Data

  1. 1.
    0557274 - ÚFA 2023 RIV CH eng J - Článek v odborném periodiku
    Bobotová, Gabriela - Sokol, Zbyněk - Popová, Jana - Fišer, Ondřej - Zacharov, Petr, jr.
    Analysis of Two Convective Storms Using Polarimetric X-Band Radar and Satellite Data.
    Remote Sensing. Roč. 14, č. 10 (2022), č. článku 2294. E-ISSN 2072-4292
    Grant CEP: GA MŠMT EF15_003/0000481
    Grant ostatní: AV ČR(CZ) StrategieAV21/20
    Program: StrategieAV
    Institucionální podpora: RVO:68378289
    Klíčová slova: X-band radar * MSG * convective storm * hydrometeor classification
    Obor OECD: Meteorology and atmospheric sciences
    Impakt faktor: 5, rok: 2022
    Způsob publikování: Open access
    https://www.mdpi.com/2072-4292/14/10/2294/html

    We analyzed two convective storms that passed over or near the Milešovka meteorological observatory. The observatory is located at the top of a hill and has been recently equipped with a Doppler polarimetric X-band radar FURUNO WR2120 for cloud investigations. Our analysis was based mainly on Doppler polarimetric radar data measured in vertical cross-sections (RHI-Range-Height Indicator). Radar data was also used for classifying hydrometeors by a newly developed XCLASS (X-band radar CLASSification) algorithm. We also used rapid scan data measured by the geostationary satellite Meteosat Second Generation to validate radar measurements at the upper parts of storms. Although an attenuation correction was applied to the reflectivity and differential reflectivity measurements, the attenuation typical of X-band radars was noticeable. It was mainly manifested in the differential reflectivity, co-polar correlation coefficient and specific differential phase. Nevertheless, radar measurements can be used to analyze the internal cloud structure of severe convective storms. The XCLASS classification was developed by major innovation of a previously published algorithm. The XCLASS algorithm identifies seven types of hydrometeors: light rain, rain, wet snow, dry snow, ice, graupel, and hail. It uses measured horizontal and vertical radar reflectivity, specific differential phase, co-polar correlation coefficient, and temperature, and applies fuzzy logic to determine the type of hydrometeor. The new algorithm practically eliminates unrealistic results around and below the melting layer provided by the original algorithm. It identifies wet snow in more cases, and areas with individual hydrometeors have more realistic shapes compared to the original algorithm. The XCLASS algorithm shows reasonable results for the classification of hydrometeors and can be used to study the structure of convective storms.
    Trvalý link: http://hdl.handle.net/11104/0331285

     
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