Abstract
Typhoon rainstorms often cause disasters in southern China. Quantitative precipitation estimation (QPE) with the use of polarimetric radar can improve the accuracy of precipitation estimation and enhance typhoon defense ability. On the basis of the observed drop size distribution (DSD) of raindrops, a comparison is conducted among the DSD parameters and the polarimetric radar observation retrieved from DSD in five typhoon and three squall line events that occurred in southern China from 2016 to 2017. A new piecewise fitting method (PFM) is used to develop the QPE estimators for landfall typhoons and squall lines. The performance of QPE is evaluated by two fitting methods for two precipitation types using DSD data collected. Findings indicate that the number concentration of raindrops in typhoon precipitation is large and the average diameter is small, while the raindrops in squall line rain have opposite characteristics. The differential reflectivity (ZDR) and specific differential phase (KDP) in these two precipitation types increase slowly with the reflectivity factor (ZH), whereas the two precipitation types have different ZDR and KDP in the same ZH. Thus, it is critical to fit the rainfall estimator for different precipitation types. Enhanced estimation can be obtained using the estimators for specific precipitation types, whether the estimators are derived from the conventional fitting method (CFM) or PFM, and the estimators fitted using the PFM can produce better results. The estimators for the developed polarimetric radar can be used in operational QPE and quantitative precipitation foresting, and they can improve disaster defense against typhoons and heavy rains.
Highlights
Southern China is located in the tropical and subtropical monsoon region
Results showed that average rainfall intensity estimated using piecewise fitting method (PFM) is higher by about 2.7% for typhoon precipitation than that using conventional fitting method (CFM) and by about 1.1%
A comparison of the evaluation indicators of PFM and CFM clearly shows that the CC of the former is slightly larger and the root mean square error (RMSE)
Summary
Southern China is located in the tropical and subtropical monsoon region. Given its proximity to the South Sea, southern China experiences frequent, highly destructive typhoons [1,2]. Typhoon-induced disasters cause tremendous losses in life, property, economy, and society [3,4]. The main factor in typhoon-induced disasters is heavy precipitation. Quantitative precipitation estimation (QPE) and quantitative precipitation foresting (QPF) need to be improved. Classic Z–R correlation was previously used in QPE with Doppler radars, and heavy precipitation was usually underestimated. To improve QPE, Doppler radars are being upgraded to dual-polarimetric (hereafter “dual-pol”) radars in China. Dual-pol radars can detect the reflectivity factor (ZH ), the differential reflectivity factor (ZDR ), and the specific differential phase (KDP )
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