【摘 要】
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This study undertook verification of the applicability and accuracy of wind data measured using a WindCube V2 Doppler Wind Lidar (DWL).The data were collected as part of a field experiment in Zhoushan,Zhejiang Province (China),which was conducted by Shang
【机 构】
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Shanghai Typhoon Institute of China Meteorological Administration,Shanghai 200030,China;Key Laborato
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This study undertook verification of the applicability and accuracy of wind data measured using a WindCube V2 Doppler Wind Lidar (DWL).The data were collected as part of a field experiment in Zhoushan,Zhejiang Province (China),which was conducted by Shanghai Typhoon Institute of China Meteorological Administration during the passage of Super Typhoon Lekima (2019).The DWL measurements were compared with balloon-borne GPS radiosonde (GPS sonde) data,which were acquired using balloons launched from the DWL location.Results showed that wind speed measured by GPS sonde at heights of< 100 m is unreliable owing to the drift effect.Optimal agreement (at heights of> 100 m)was found for DWL-measured wind speed time-averaged during the ascent of the GPS sonde from the ground surface to the height of 270 m (correlation coefficient:0.82;root mean square (RMS):2.19 m·s-1).Analysis revealed that precipitation intensity (PI) exerts consider-able influence on both the carrier-to-noise ratio and the rate of missing DWL data;however,PI has minimal effect on the wind speed bias of DWL measurements.Specifically,the rate of missing DWL data increased with increasing measurement height and PI.For PI classed as heavy rain or less (PI < 12 mm·h-1),the DWL data below 300 m were considered valid,whereas for PI classed as a severe rainstorm (PI > 90 rnm·h-1),only data below 100 m were valid.Up to the height of 300 m,the RMS of the DWL measurements was nearly half that of wind profile radar(WPR) estimates (4.32 m·s-1),indicating that DWL wind data are more accurate than WPR data under typhoon conditions.
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