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一次春季雨雪天气的降水相态演变特征分析

Analysis on the phase transformation of precipitation in a rain and snow event in spring

  • 摘要: 利用常规观测资料和微波辐射计、风廓线雷达、激光雨滴谱仪等新型探测资料,对2020年3月底南京地区一次寒潮雨雪天气过程进行了分析,探讨新型探测资料在降水相态转换监测预报中的应用。结果表明:(1) 乌拉尔山高压脊、高空冷涡、地面强冷高压、地面冷锋是造成本次寒潮天气的主要天气系统。南支槽前西南气流提供水汽、850 hPa以下冷空气造成中低层气温持续下降是产生降水相态变化的关键。(2) 微波辐射计观测资料显示,雨雪过程中低层先降温、地面后降温,近地层有暖层;降水相态转换前后,0 ℃层高度变化明显,纯雪时段达到最低;水汽主要分布在3—4 km,液态水含量和水汽密度在雨夹雪时段最大,在纯雪时段最小。(3) 风廓线雷达观测的垂直风场反映出低层冷空气南下使冷垫增厚,迫使暖湿空气抬升、气温下降,从而导致降水相态转变;由于西南急流没有稳定建立,因此未出现强降雪天气。(4) 激光雨滴谱仪观测到降雪粒子的直径大、降落末速度小,而降雨粒子的直径小、降落末速度大,可以用来监测和预报降水相态的变化;从雨—雨夹雪—纯雪阶段,粒子谱型经历了双峰—波动—多峰的演变过程,谱宽与数浓度呈明显增加趋势。

     

    Abstract: The rain and snow event in cold wave in Nanjing at the end of March 2020 is analyzed using conventional observation data and new detection data such as microwave radiometer, wind profile radar and laser precipitation spectrometer. The results show that: (1) The weather systems that caused this cold wave are Ural high pressure ridge, upper cold vortex, ground strong cold high pressure and ground cold front. The water vapor provided by the southwest airflow in front of the southern trough and the continuous decrease of temperature in the middle and low levels caused by the cold air below 850 hPa are the key factors to produce changes in precipitation phase. (2) The microwave radiometer data showed that the lower level temperature drops first, followed by the ground temperature. There is a warm layer near the ground. The height of 0 ℃ layer changed obviously during the precipitation phase transformation, and it reached minimum in snowfall period. The water vaper during this event is mainly distributed at 3 to 4 km. The liquid water and the vaper density reached maximum in sleet period and reached minimum in snowfall period. (3) The vertical wind from wind profile radar reflected that when the cold air moves southward, the cold lower layer became thicker, the warm and humid air raised and the temperature decreased, and that leaded to the precipitation phase transformation. There was no heavy snow because the southwest jet was not established stably. (4) The laser precipitation spectrometer observed that the snowfall particle's diameter is bigger and falling velocity is slower, while the rainfall particle's diameter is smaller and falling velocity is faster. It can be used to monitor and forecast changes in precipitation phase. From the period of rainfall, sleet and snowfall, the patterns experienced a process from double spectrum to undulation and multimodal spectrum. Furthermore, both spectrum width and number concentration are significantly in increasing trend.

     

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