Print Email Facebook Twitter Multi-beam raindrop size distribution retrievals on the Doppler spectra Title Multi-beam raindrop size distribution retrievals on the Doppler spectra Author Unal, C.M.H. Faculty Civil Engineering and Geosciences Department Geoscience & Engineering Date 2012-12-31 Abstract Acquiring the raindrop size distribution from radar data is still a challenge. Generally this distribution is retrieved using the reflectivity, Z, and the differential reflectivity, Zdr, at S-band. The specific differential phase, Kdp, provides a third radar observable in the case of heavy precipitation to strengthen the retrieval technique. For S-band profiling radars, Kdp cannot be used, mainly because of the limited number of range bins containing rain. The Zdr measurement cannot be employed when the elevation is near the vertical, or in the case of drizzle and light rain. Therefore retrievals have to be performed on the measured Doppler spectra. For this purpose, the Doppler spectra of rain are modeled using Rayleigh scattering, the gamma distribution for the raindrop size, a size-shape relationship and a Gaussian kernel for the turbulence. Comparing the measured Doppler spectrum with the modeled one, a non-linear least-square fit technique is employed to obtain the parameters of the raindrop size distribution (D0, ?) and the turbulence broadening factor of the raindrop size spectrum (?0). The intercept parameter (Nw) and the radial wind component (v0) are estimated by scaling the broadened drop size distribution (DSD) along the spectral reflectivity axis and the Doppler velocity axis respectively. This approach has been proposed in (Moisseev et al, 2006). So far, this technique has not been further developed, exploited and validated. It is our intention to investigate this methodology using the Doppler-polarimetric TARA radar to retrieve raindrop size distribution from drizzle to heavy precipitation with high spatial and time resolution. Since TARA can profile in three directions, three raindrop size distribution profiles are estimated, which can give insight in the microphysical homogeneity of the precipitation To reference this document use: http://resolver.tudelft.nl/uuid:b74d5f0b-aa21-4955-a4f1-4764c71b7131 Source ERAD2012 Proceedings of the 7th European Conference on Radar in Meteorology and Hydrology, Toulouse (France), 24-29 June, 2012 Part of collection Institutional Repository Document type conference paper Rights (c) 2012 Unal, C. Files PDF 312664.pdf 2.34 MB Close viewer /islandora/object/uuid:b74d5f0b-aa21-4955-a4f1-4764c71b7131/datastream/OBJ/view