基于飞机观测的内蒙古阴山地区层状云微物理特征OA
Microphysical characteristics of stratiform clouds over the Yinshan Mountains region of Inner Mongolia based on aircraft observations
为深入理解内蒙古阴山地区的降水过程,基于2024年4月19日的飞机探测资料,对一次层状降水云系的微物理特征进行了系统探究.结果表明:(1)内蒙古阴山地区受到山脉对水汽的阻挡集聚和地形强迫抬升的影响,同一海拔高度上山脉南北麓的云微物理特征存在显著差异.山北云系液态含水量较低,云粒子以直径小于15 μm的小云滴为主,总数浓度高但谱宽较窄;而山南液态含水量较高,总数浓度虽小但谱宽显著增宽.(2)云区边缘的液水分布不均匀,受湍流和蒸发作用影响,粒子尺度明显小于云体内部.0℃层附近半融化粒子的碰并过程导致小云滴数浓度降低的同时伴随大云滴数浓度显著增加,且二者测量的粒子谱宽均有所拓宽.(3)垂直观测表明,高层大的降水粒子在下落时经历融化过程,导致低层观测到大量半融化状态的云粒子,而降水粒子的下落破碎,导致低层降水粒子谱宽变窄而云粒子总数浓度增加.本研究系统阐明了地形、湍流等多种因素对云微物理结构的精细化影响,研究结果可直接应用于改进本区域的数值预报模型与人工增雨作业方案.
To gain an in-depth understanding of precipitation processes in the Yinshan Mountains region of Inner Mongolia,this paper presents a systematic investigation of the microphysical characteristics of a stratiform pre-cipitating cloud system based on aircraft observation data collected on April 19,2024.The results show that:(1)Due to mountain blocking,moisture accumulation,and orographic forced lifting,significant differences in cloud microphysical characteristics were observed between the northern and southern sides of the mountains at the same flight altitude.On the northern side,the cloud system was characterized by lower liquid water content,with cloud particles predominantly consisting of small droplets with diameters less than 15 μm,exhibiting high to-tal number concentrations and a relatively narrow spectral width.In contrast,on the southern side,higher liquid water content,fewer particles,and a significantly broader spectral width were observed.(2)The spatial distribu-tion of liquid water content at the edges of the cloud area was uneven.Particle sizes in this region were signifi-cantly smaller than those in the interior of the cloud body due to the effects of turbulence and evaporation.The concentration of small cloud droplets decreased due to the coalescence process of melting ice crystals near the 0℃level,while the concentration of large cloud droplets increased significantly,accompanied by a broadening of the particle spectral width measured by both instruments.(3)Vertical observations indicate that large precipita-tion particles at higher altitudes undergo melting during descent,resulting in the presence of a substantial number of partially melted cloud particles at lower levels.Meanwhile,the breakup of precipitation particles during their fall leads to a narrowing of the precipitation particle spectrum at lower levels and an increase in the number con-centration of cloud particles.This study systematically elucidates the refined effects of factors such as topography and turbulence on cloud microphysical structure.The findings can be directly applied to improve numerical weather prediction models and cloud seeding operation strategies for this region.
李慧;郑旭程;苏立娟;林泓锦;辛悦
内蒙古自治区人工影响天气中心,内蒙古 呼和浩特 010051内蒙古自治区人工影响天气中心,内蒙古 呼和浩特 010051内蒙古自治区人工影响天气中心,内蒙古 呼和浩特 010051内蒙古自治区人工影响天气中心,内蒙古 呼和浩特 010051内蒙古自治区人工影响天气中心,内蒙古 呼和浩特 010051
内蒙古阴山地区层状云微物理特征飞机观测
Yinshan Mountains region of Inner Mongoliastratiform cloudsmicrophysical characteristicsair-craft observations
《干旱区研究》 2026 (5)
922-931,10
内蒙古自然科学基金青年项目(2025QN04018)内蒙古自治区气象局科学试验项目(nmqxkxsy202406)内蒙古自治区气象局科技创新项目(nmqxkjcx202585,nmqxkjcx202471,nmqxkjcx202428)中国气象局人工影响天气中心创新团队(WMC2023IT02)中国气象局创新发展专项(CXFZ2025J038)
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