西北干旱半干旱区一次层状云系微物理特征分析

doi:10.12118/j.issn.1000-6060.2019.06.07

干旱区地理 ›› 2019, Vol. 42 ›› Issue (6): 1291-1300.doi: 10.12118/j.issn.1000-6060.2019.06.07

西北干旱半干旱区一次层状云系微物理特征分析

王研峰¹，王蓉¹，王聚杰^2,3，尹宪志¹

1甘肃省人工影响天气办公室，甘肃兰州 730020；2南京信息工程大学气象灾害预报预警与评估协同创新中心，江苏南京 210044；3南京信息工程大学管理工程学院，江苏南京 210044

收稿日期:2019-03-02 修回日期:2019-07-24 出版日期:2019-11-15 发布日期:2019-11-17
通讯作者: 王蓉
作者简介:王研峰（1986-），男，工程师，主要从事云物理降水和大气遥感研究.E-mail：wangyanfeng_1986@163.com
基金资助:
甘肃省气象局气象科研面上项目；国家自然科学基金面上项目（71971122）；甘肃省气象局创新团队（祁连山云水资源开发利用评估）；干旱气象科学研究基金项目（IAM201813）

Cloud microphysical characteristics on a stratiform nephsystem in the arid and semi-arid regions of northwest China

WANG Yan-feng¹,WANG Rong¹,WANG Ju-jie^2,3,YIN Xian-zhi¹

1 Gansu Weather Modification Office,Lanzhou 730020,Gansu,China; 2 College of Management Engineering,Nanjing University of Information and Science Technology,Nanjing 210044,Jiangsu,China; 3 School of Management Science and Engineering,Nanjing University of Information Science and Technology,Nanjing 210044,Jiangsu,China

Received:2019-03-02 Revised:2019-07-24 Online:2019-11-15 Published:2019-11-17

摘要/Abstract

摘要： 利用西北干旱半干旱区一次飞机探测资料、卫星资料，分析了层状云微物理结构以及作业前后云微物理变化，结果表明：（1）此次层状云系垂直结构配置为冷暖两层，云层发展厚实。云的垂直和水平分布极不均匀。相对层积云，高层云小云粒子浓度低，大云粒子浓度高，液态含水量高。小云粒子浓度尤其是峰值区域与平均直径呈明显反相关。大于60个·cm^-3和35个·L^-1的小云、大云粒子浓度分别主要由3.5~10 μm、50~200 μm粒径段决定。（2）不同高度云粒子谱为单峰或双峰分布，总体呈单调递减趋势，但云形成和增长条件存在差异。强可播、不可播和可播性冷云粒子谱基本符合负幂指数的单调递减规律，云粒子浓度差异较大，自然冰晶浓度不可播云较高，可播云次之，强可播云较低。（3）作业后小云粒子浓度明显降低，在6.5~20 μm粒径段降低了2个量级左右，大云粒子浓度明显增加，谱宽增大，尤其在大于150 μm粒径段。

关键词: font-size:10.5pt, 西北干旱半干旱区；">西北干旱半干旱区； font-size:10.5pt, "> font-size:10.5pt, 层状云；">层状云； font-size:10.5pt, "> font-size:10.5pt, 微物理结构；">微物理结构； font-size:10.5pt, "> font-size:10.5pt, 催化响应')">">催化响应

Abstract:

In order to qualitatively evaluate the effect of the aircraft artificial rain enhancement in the arid and semi-arid regions of northwest China, the stratiform cloud microphysical structure and its changes before and after the seeding were analyzed by using observation data of an airborne detection, and satellite data. The results are summarized as follows: (1) The stratiform cloud contains a cold layer and a warm layer from the vertical structure perspective and the clouds were thick. The vertical and horizontal distribution of the cloud in the detection area are very uneven. Compared to stratocumulus cloud, the concentration of the small cloud particles in altostratus cloud is low, while the concentration of the large cloud particles is high and the liquid state water content is high. The concentration of the small cloud particles was negatively correlated with its average diameter, particularly in the peak regions. The concentration of small cloud particles greater than 60 individual·cm^-3 and large cloud particles greater than 35 individual·L^-1 depended mainly on the particles whose diameters ranged from 3.5 to 10 μm and from 50 to 200 μm, respectively. (2) The cloud particle spectrum with different heights follows unimodal or bimodal distributions, but shows a declining trend in general. There is difference in the cloud forming and developing. The particle spectrum of the strong seedable, not-seedable and seedable cold cloud basically accords with the monotone decreasing law of negative power exponent, but there are great difference in cloud particles concentration,with the not-seedable ice crystal cloud having the highest concentration,followed by those with seedable cloud,and the strong seedable cloud the lowest. (3) The concentration of the small cloud particles was significantly decreased after seeding,by about two orders of magnitude in the diameter range from 6.5 to 20 μm.The concentration of the large cloud particles was significantly increased after seeding,and the spectral width was expanded,especially in the diameter range larger than 150 μm.

Key words: arid and semi-arid regions of northwest China')"> arid and semi-arid regions of northwest China, stratiform cloud, microphysical structure, microphysical responses after seeding

王研峰, 王蓉, 王聚杰, 尹宪志. 西北干旱半干旱区一次层状云系微物理特征分析 [J]. 干旱区地理, 2019, 42(6): 1291-1300.

WANG Yan-feng, WANG Rong, WANG Ju-jie, YIN Xian-zhi. Cloud microphysical characteristics on a stratiform nephsystem in the arid and semi-arid regions of northwest China [J]. Arid Land Geography, 2019, 42(6): 1291-1300.

参考文献［28］

［1］	刘洪利,朱文琴,宜树华,等.中国地区云的气候特征分析［J］.气象学报,2003,61(4):466-473.［LIU Hongli,ZHU Wenqin,YI Shuhua,et al.Climatic analysis of the cloud over China［J］.Acta Meteorologica Sinica,2003,61(4):466-473.］
［2］	周毓荃,蔡淼,欧建军,等.云特征参数与降水相关性的研究［J］.大气科学学报,2011,34(6):641-652.［ZHOU Yuquan,CAI Miao,OU Jianjun,et a1.Correlation between cloud characteristic parameters and precipitation［J］.Transactions of Atmospheric Science,2011,34(6):641-652.］
［3］	郭学良,付丹红,胡朝霞.云降水物理与人工影响天气研究进展(2008—2012年）［J］.大气科学,2013,37(2):351-363.［GUO Xueliang,FU Danhong,HU Zhaoxia.Progress in cloud physics,precipitation,and weather modification during 2008—2012［J］.Chinese Journal of Atmospheric Sciences,2013,37(2):351-363.］
［4］	ROSENFELD D,GUTMAN G.Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of AVHRR data［J］.Atmospheric Research,1994,34: 259-283.
［5］	GRANT L O,ELLIOTT R E.The cloud seeding temperature window［J］.Journal of Applied Meteorology,1974,13(3):355-363.
［6］	封秋娟,李培仁,侯团结,等.山西春季一次层状冷云的微物理结构特征［J］.大气科学学报,2014,37(4):449-456.［FENG Qiujuan,LI Peiren,HOU Tuanjie,et al.Microphysical characteristics of spring precipitation clod stratifform clouds in Shanxi Province［J］.Journal of Atmospheric Sciences,2014(4):449-456.］
［7］	李仑格,德力格尔.高原东部春季降水云层的微物理特征分析［J］.高原气象,2001,20(2):191-196.［LI Lunge,DE Ligeer.Analyses of microphysical features for spring precipitation cloud layers in east of Qinghai［J］.Plateau Meteorology,2001,20(2):191-196.］
［8］	李照荣,李荣庆,李宝梓.兰州地区秋季层状云垂直微物理特征分析［J］.高原气象,2003,22(6):583-589.［LI Zhaorong,LI Rongqing,LI Baozi.Analyses on vertical microphysical characteristics of autumn stratiform cloud in Lanzhou region［J］.Plateau Meteorology,2003,22(6):583-589.］
［9］	孙玉稳,李宝东,刘伟,等.河北秋季层状云物理结构及适播性分析［J］.高原气象,2015,34(1):237-250.［SUN Yuwen,LI Baodong,LIU Wei,et al.Study on physical structure of Hebei stratiform clouds in autumn and its seed ability condition［J］.Plateau Meteorology,2015,34(1):237-250.］
［10］	韩凤霞,邢大韦.西北干旱区的水环境问题［J］.干旱区地理,1993,16(4):45-50.［HAN Fengxia,XING Dawei.Water environmental problems in the arid and semiarid regions of northwest China［J］.Arid Land Geography,1993,16(4):45-50.］
［11］	赵雪雁,王亚茹,张钦,等.近50 a青藏高原东部夏半年强降水事件的气候特征［J］.干旱区地理,2015,38(4):675-683.［ZHAO Xueyan,WANG Yaru,ZHANG Qin,et al.Climatic characteristics of heavy precipitation events during summer half year over the eastern Tibetan Plateau in recent 50 years［J］.Arid Land Geography,2015,38(4): 675-683.］
［12］	王黎俊,银燕,姚展予,等.三江源地区秋季一次层积云飞机人工增雨催化试验的微物理响应［J］.气象学报,2013,71(5):925-939.［WANG Lijun,YIN Yan,YAO Zhanyu,et al.Microphysical responses as seen in a stratocumulus aircraft seeding experiment in autumn over the Sanjiangyuan National Nature Reserve［J］.Acta Meteoro Sinica,2013,71(5):925-939.］
［13］	王黎俊,银燕,李仑格,等.三江源地区秋季典型多层层状云系的飞机观测分析［J］.大气科学,2013,37(5):1038-1058.［WANG Lijun,YIN Yan,LI Lunge,et al.Analyses on typical autumn multilayer stratiform clouds over the Sanjiangyuan National Nature Reserve with airborne observations［J］.Chinese Journal of Atmospheric Sciences,2013,37(5):1038-1058.］
［14］	MILES N L,VERLINDE J,CLOTHIAUX E E.Cloud droplet size distributions in lowlevel stratiform clouds ［J］.Journal of the Atmospheric Sciences,2000,57: 295-311.
［15］	张瑜,银燕,石立新,等.2007年秋季河北地区云微物理结构的[JP2]飞机探测分析［J］.高原气象,2012,31(2):530-537.［ZHANG Yu,[JP]YIN Yan,SHI Lixing,et al.Analysis of microphysical structure over Hebei region during autumn of 2007［J］.Plateau Meteorology,2012,31(2):530-537.］
［16］	党娟,王广河,刘卫国.甘肃省夏季层状云微物理特征个例分析［J］.气象,2009,35(1):24-36.［DANG Juan,WANG Guanghe,LIU Weiguo.A case analysis on microphysical characteristics of summer stratiform cloud in Gansu Province［J］.Meteor Mon,35(1):24-36.］
［17］	游来光,马培民,胡志晋.北京层状云人工降水试验研究［J］.气象科技,2002,30(增刊):19-63.［YOU Laiguang,MA Peimin,HU Zhijin.The stratiform cloud artificial rainfall experiments in Beijing［J］.Meteorology Science and Technology,2002,30(suppl.):19-63.］
［18］	项磊.宁夏层状云宏观微观物理特征综合分析［D］.南京:南京信息工程大学,2007.［XIANG Lei.Analysis of the micro-physical characteristics of stratiform clouds in NingXia［D］.Nanjing:Nanjing University of Information Science & Technology,2007.］
［19］	樊鹏,余兴.陕甘宁人工增雨技术开发研究［M］.北京:气象出版社,2003.［FAN Peng,YU Xing.A study of development of artificial precipitation in the Shaanxi,Gansu and Ningxia［M］.Beijing:China Meteorological Press,2003.］
［20］	陶树旺,刘卫国,李念童,等.层状冷云人工增雨可播性实时识别技术研究［J］.应用气象学报,2001,12(增刊):14-22.［TAO Shuwang,LIU Weiguo,LI Niantong,et al.A study of real-time identification of seedability of cold stratiform clouds［J］.Journal of Applied Meterological Science,2001,12(suppl.):14-22.］
［21］	王研峰,黄武斌,和翠英,等.陇中黄土高原一次秋季层状云微物理结构及适播性分析［J］.干旱气象,2017,35(1):64-72.［WANG Yanfeng,HUANG Wubin,HE Cuiying,et al.Analysis on microphysical structure of stratiform clouds in autumn in Loess Plateau of middle Gansu［J］.Journal of Arid Meteorology,2017,35(1):64-72］
［22］	陶玥,洪延超.云中粒子谱形状因子变化对云及降水影响的数值研究［J］.气象学报,2007,65(2):221-230.［TAO Yue,HONG Yanchao.Numerical simulation of influence of drop size distribution shape on cloud and precipitation［J］.Acta Meteoro Sinica,2007,65(2):221-230.］
［23］	王以琳,雷恒池.冷云飞机人工引晶检验［J］.大气科学,2003,27(5):929-938.［WANG Yilin,LEI Hengchi.Test of cold cloud seeding［J］.Chinese Journal of Atmospheric Sciences,2003,27(5):929-938,］
［24］	王旭,张嘉伟,马禹,等.天山山脉强降水云宏微观物理属性的空间分布特征［J］.干旱区地理,2016,39(6):1153-1161.［WANG Xu,ZHANG Jiawei,MA Yu,et al.Spacial distribution of macro and micro physical properties of clouds during heavy rains over Tianshan Mountains［J］.Arid Land Geography,2016,39(6):1153-1161.
［25］	秦彦硕,蔡淼,刘世玺,等.华北秋季一次低槽冷锋积层混合云宏微物理特征与催化响应分析［J］.气象学报,2017,75(5):835-849.［QIN Yanshuo,CAI Miao,LIU Shixi,et al.Study on macro and microphysical structure and responses of an autumn trough cold-front convective-stratiform mixed cloud in north China［J］.Acta Meteorologica Sinica,2017,75(5):835-849.］
［26］	李斌,郑博华,兰文杰,等.克拉玛依市冬季飞机人工增雪作业效果统计分析［J］.干旱区地理,2018,41(4):686-692.［LI Bin,ZHENG Bohua,LAN Wenjie,et al.Statistical analysis of effect of aircraft artificial snowfall enhancement in winter at Karamay［J］.Arid Land Geography,2018,41(4):686-692.］
［27］	常倬林,崔洋,张武,等.基于CERES的宁夏空中云水资源特征及其增雨潜力研究［J］.干旱区地理,2015,38(6):1112-1120.［CHANG Zhuolin,CUI Yang,ZHANG Wu,et al.Characteristics and developing potential of cloud water resource in Ningxia with the CERES data［J］.Arid Land Geography,2015,38(6):1112-1120.］
［28］	陈亚宁,杨青,罗毅,等.西北干旱区水资源问题研究思考［J］.干旱区地理,2012,35(1):1-9.［CHEN Yaning,YANG Qing,LUO Yi ,et al.Ponder on the issues of water resources in the arid region of northwest China［J］.Arid Land Geography,2012,35(1):1-9.

[1]	冯克鹏, 田军仓, 沈晖. 基于K-means聚类分区的西北地区近半个世纪气温变化特征分析[J]. 干旱区地理, 2019, 42(6): 1239-1252.
[2]	那音太, 秦福莹, 贾根锁, 杨劼, 包玉海. 近54 a蒙古高原降水变化趋势及区域分异特征[J]. 干旱区地理, 2019, 42(6): 1253-1261.
[3]	牟欢, 赵丽, 孙硕阳, 汤浩, 贾健. 天山北麓两次暴雪天气对比分析[J]. 干旱区地理, 2019, 42(6): 1262-1272.
[4]	廉陆鹞, 刘滨辉. 近58 a我国西北地区干期与湿期变化特征 [J]. 干旱区地理, 2019, 42(6): 1301-1309.
[5]	李倩, 王瑛, 许映军, 俞海洋, 龙爽, 黄靖玲. 基于Copula的近60 a京津冀地区干旱灾害危险性评估 [J]. 干旱区地理, 2019, 42(6): 1310-1321.
[6]	常兆丰, 朱淑娟, 杜娟, 石学刚, 段晓峰, 赵鹏, 张剑挥. 民勤绿洲边缘积沙带形成的环境条件 [J]. 干旱区地理, 2019, 42(6): 1330-1336.
[7]	潘美慧, 薛雯轩, 伍永秋, 黄文敏, 马建军, 杨安娜, 陈玉林. 西藏定结地区爬坡沙丘粒度特征分析 [J]. 干旱区地理, 2019, 42(6): 1337-1345.
[8]	黄天宇, 刘廷玺, 李东方, 段利民, 王冠丽. 科尔沁梯级生态带大孔径闪烁仪与涡动相关仪观测显热通量间的尺度关系 [J]. 干旱区地理, 2019, 42(6): 1346-1353.
[9]	闫德仁, 张胜男, 吴振廷. 苔藓生物结皮层腐殖质组成变化特征研究[J]. 干旱区地理, 2019, 42(6): 1354-1358.
[10]	刘旻霞, 南笑宁, 夏素娟, 李全弟, 蒋晓轩. 皋兰老虎台红砂种群在不同坡向的空间格局及关联性[J]. 干旱区地理, 2019, 42(6): 1359-1367.
[11]	马剑, 刘贤德, 李广, 赵维俊, 王顺利, 敬文茂, 王荣新, 赵永宏. 祁连山中段青海云杉林土壤肥力质量评价研究[J]. 干旱区地理, 2019, 42(6): 1368-1377.
[12]	罗庆辉, 许仲林, 徐泽源, 李路, 常亚鹏, 徐昕亿, 宋昕妮. 天山雪岭云杉个体生物量分配及其变化规律的研究 [J]. 干旱区地理, 2019, 42(6): 1378-1386.
[13]	周远刚, 赵锐锋, 张丽华, 赵敏. 博格达峰地区冰川和积雪变化遥感监测及影响因素分析 [J]. 干旱区地理, 2019, 42(6): 1395-1403.
[14]	包青岭, 丁建丽, 王敬哲, 蔡亮红. 基于随机森林算法的土壤有机质含量高光谱检测 [J]. 干旱区地理, 2019, 42(6): 1404-1414.
[15]	靳含, 杨爱民, 夏鑫鑫, 朱磊, 张青青. 基于CA-Markov模型的多时间跨度土地利用变化模拟[J]. 干旱区地理, 2019, 42(6): 1415-1426.

西北干旱半干旱区一次层状云系微物理特征分析

Cloud microphysical characteristics on a stratiform nephsystem in the arid and semi-arid regions of northwest China

PDF (PC)

赞

评审附件

可视化

摘要/Abstract

引用本文

使用本文

参考文献［28］

相关文章 15

Metrics

本文评价

推荐阅读 0

西北干旱半干旱区一次层状云系微物理特征分析

Cloud microphysical characteristics on a stratiform nephsystem in the arid and semi-arid regions of northwest China

PDF (PC)

赞

评审附件

可视化

摘要/Abstract

引用本文

使用本文

参考文献 ［28］

相关文章 15

Metrics

本文评价

推荐阅读 0

参考文献［28］