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1.
人工消雾试验中的雾微物理响应 总被引:2,自引:0,他引:2
2009 年11—12 月在天津市武清区实施了两次消雾外场试验。11 月6—7 日,利用燃烧烟条的方式播撒吸湿性焰剂对暖雾实施催化;11 月30 日—12 月1 日,利用播撒液氮的方式实施冷雾消雾试验。对两次消雾试验期间雾的微物理观测资料分析发现,雾对催化有明显响应,具体表现为:雾滴浓度先增后减且变化剧烈,液态水含量、雾滴大小等微物理特征量也发生了显著变化;催化期间雾滴谱均出现了谱宽加大的现象,催化结束后谱宽恢复至催化前状态;催化效应导致出现了处于不同发展阶段的雾滴,雾滴谱发生了单峰分布和双峰分布间的变换:催化前滴谱为单峰分布,催化期间出现双峰谱;多个短时双峰谱反复出现;首个双峰谱出现后,滴谱逐渐由单调递减向单峰、双峰转变;催化结束后,滴谱由双峰谱恢复为单峰谱。分析认为:催化后暖雾中发生成熟过程(Ripening Process),而冷雾催化后则启动了贝吉隆过程(Bergeron process)。 相似文献
2.
利用山东省2007年10月27日1架次机载粒子测量系统(Particles Measuring System,PMS)积层混合云探测资料,分析了云中粒子浓度和尺度、液态含水量,以及小云滴和大云滴谱的垂直分布特征,比较了催化前后云微物理特征的变化。结果表明,催化前,云层中小云滴谱型为单峰,谱宽随高度增加先变窄后变宽,大云滴谱型在云低层为单峰,中高层为双峰谱,谱宽随高度增加先变宽后变窄,并且没有探测到降水粒子。催化后,小云滴尺度在低层减小、高层增加,整层液态水含量减小;大云滴浓度增加,尺度增大,出现降水粒子,固态粒子类型增多。在3 700~4 000 m高度层内小于10μm粒子明显增加,说明凝结过程比较明显,并且10~27.5μm粒子开始出现,启动了云滴的碰并机制。小云滴谱变化较小,基本为单峰谱,但在较大云滴处谱型略有起伏,在3 000m和3 300m高度的谱宽增宽。大云滴粒子谱有较大的变化,低层变成双峰谱,谱宽最宽可达650μm,中高层为双峰或多峰,峰值从小值向较大值移动。2D-P探头在催化云高层探测到降水粒子,谱型呈单调下降形态,谱宽最大为600μm。 相似文献
3.
Synoptic systems and microphysical properties associated with a sea fog event are
analyzed based on the measurements of visibility, meteorological elements and fog droplet
spectrum from a comprehensive field campaign in Xiamen, Fujian province during spring 2013.
The influences of meteorological elements on the microstructures of the sea fog are also
discussed. The results showed that the wind speed and direction changed suddenly during the
intermittent and disperse phases of the sea fog. Liquid water content, number concentration
and average diameter varied obviously in the development, mature and disperse phases of the
sea fog. The burst re-enforcement of sea fog was accompanied by explosive broadening of fog
droplet spectrum; average diameter, number concentration and liquid water content increased
sharply; and background meteorological conditions also changed significantly. The
microstructures fluctuated intensely due to changes in turbulence, radiation and
meteorological conditions at different stages, including nucleation, condensation,
coagulation, and evaporation, as well as the discontinuity of spatial distribution of
droplets. 相似文献
4.
Based on the dynamic framework of WRF and Morrison 2-moment explicit cloud scheme, a salt-seeding scheme was developed and used to simulate the dissipation of a warm fog event during 6–7 November 2009 in the Beijing and Tianjin area. The seeding effect and its physical mechanism were studied. The results indicate that when seeding fog with salt particles sized 80 μm and at a quantity of 6 gm~(-2) at the fog top, the seeding effect near the ground surface layer is negative in the beginning period, and then a positive seeding effect begins to appear at 18 min, with the best effect appearing at 21 min after seeding operation. The positive effect can last about 35 min. The microphysical mechanism of the warm fog dissipation is because of the evaporation due to the water vapor condensation on the salt particles and coalescence with salt particles.The process of fog water coalescence with salt particles contributed mostly to this warm fog dissipation. Furthermore, two series of sensitivity experiments were performed to study the seeding effect under different seeding amounts and salt particles sizes. The results show that seeding fog with salt particles sized of 80 μm can have the best seeding effect, and the seeding effect is negative when the salt particle size is less than 10 μm. For salt particles sized 80 μm, the best seeding effect, with corresponding visibility of 380 m, can be achieved when the seeding amount is 30 g m~(-2). 相似文献
5.
Microphysical Structure and Evolution of a Four-Day Persistent Fog Event in Nanjing in December 2006 总被引:1,自引:0,他引:1 
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下载免费PDF全文 LIU Duanyang PU Meijuan YANG Jun ZHANG Guozheng YAN Wenlian LI Zihua 《Acta Meteorologica Sinica》2010,24(1):104-115
A persistent thick fog event occurred in Nanjing during 24-27 December 2006,and the bad visibility below 50 m lasted for more than 40 h.Microphysical characters and evolution of the fog event have been analyzed based on the continually observed data of drop-size distribution,number concentration,liquid water content(LWC),etc.,by an FM-100 fog particle spectrometer,as well as routine observations by an auto-weather station and a ZQZ-DN visibility meter during the fog episode.The results were compared with... 相似文献
6.
南京冬季雾爆发性增强的物理特征研究 总被引:22,自引:4,他引:18
根据2006年12月在南京市郊观测的3次浓雾过程(12月12日、14日和24~27日)资料,分析了雾的发展过程及爆发性增强特征,探讨了雾体爆发性增强的原因。结果表明:南京冬季雾爆发性增强的物理特征是在很短时间内(30 min以内),能见度急剧下降,雾滴数密度和含水量明显增加、尺度明显增大、雾滴谱变宽。究其原因,发现夜晚长波辐射增强或近地层出现冷平流造成的气温急剧下降,日出后地表水分蒸发或西南湿平流增强造成的湿度明显增大以及湍流混合作用,都能导致雾体爆发性增强。 相似文献
7.
江苏省秋冬季强浓雾发展的一些特征 总被引:3,自引:2,他引:1
运用江苏省72个国家基本气象观测站和339个交通气象观测站资料,对2013年12月1-9日、2015年10月23日、12月22日及2016年2月12日出现的四次全省性的以辐射降温为主的强浓雾和特强浓雾过程进行分析,筛选出194个站例,对江苏省秋、冬季强浓雾生消的气候特征、雾爆发增强的微物理特征及雾爆发性增长的触发因子进行分析。结果表明:(1)雾爆发性增强的本质是雾在很短时间内雾滴增多增大,雾含水量呈几个数量级的增加,从而导致雾区能见度快速下降。(2)夜间辐射降温突然增强、底层弱冷空气入侵、日出后蒸发量加大及湖陆风效应是雾爆发性增长的触发因子。 相似文献
8.
雾对交通运输有不利影响,尤其是强浓雾。本文利用2019年1月上中旬在寿县国家气候观象台应用FM-100型雾滴谱仪测量的雾滴谱数据和常规气象观测数据,分析了不同强度雾的微物理特征,以及能见度与含水量、雾滴数浓度、相对湿度之间的关系,在此基础上建立了能见度参数化方案。结果表明:(1)随着雾的强度增强,雾中含水量显著增大,大雾、浓雾和强浓雾阶段含水量平均值分别为0.003 g m?3、0.01 g m?3和0.09 g m?3;当含水量大于0.02 g m?3,出现强浓雾的比例高达95%。(2)雾滴数浓度、雾滴尺度随着雾强度增强而增大,从大雾到浓雾,雾滴数浓度显著增加(增幅67%),而从浓雾到强浓雾,雾滴尺度显著增大,平均直径、平均有效半径分别增加62%、135%;当雾滴有效半径大于4.7 μm,出现强浓雾的比例高达95%。(3)强浓雾、浓雾、大雾雾滴数浓度谱分布均为双峰结构,谱分布整体偏向小粒子一端,强浓雾谱型为Deirmendjian分布,浓雾、大雾均为Junge分布;强浓雾的雾水质量浓度谱呈现多峰特征,最大峰值出现在21.5 μm处,浓雾雾水质量浓度谱为双峰分布,大雾为单峰型,最大峰值均出现在5 μm处。(4)含水量、数浓度与能见度均呈反相关关系,含水量对能见度的影响最为显著;分别采用全样本和分段方式建立了四种能见度参数化方案,评估检验结果表明,基于含水量的能见度分段拟合方案对能见度的估算效果最好。 相似文献
9.
南京冬季辐射雾雾水沉降特征研究 总被引:1,自引:0,他引:1
利用2007年11月15日至12月29日在南京市郊开展的雾外场观测试验所获取的雾滴谱、三维风资料,利用涡度协方差法,主要分析了南京冬季辐射雾雾过程中的雾水沉降特征,并探讨了一次辐射雾与辐射—平流雾雾水沉降特征的差异。结果表明:辐射雾成熟阶段的雾水沉降量占总沉降量的90%以上;发现20μm以上的大雾滴对沉降起主要贡献,而大雾滴主要受重力沉降机制影响,重力沉降量约占总沉降量的82%,而雾水的湍流沉降量相对较小;直径7μm以下与40μm以上的雾滴对总沉降量几乎无贡献;雾的液态水含量与雾水沉降量之间线性相关,说明雾液态水含量对雾水沉降量有直接的影响,雾水沉降集中在能见度50 m以下的强浓雾阶段;辐射雾发展阶段近地面小雾滴在湍流扩散作用下以一定的周期向雾层上方输送,使得雾水通量谱具有明显的振荡特征,而辐射—平流雾的雾水通量谱不具有振荡特征。 相似文献
10.
利用2011年2~3月广东省湛江市东海岛雷达站观测得到的12次雾过程中雾滴谱、能见度、边界层风温场资料以及常规气象资料,对沿岸海雾发生时的天气系统进行分类,分析了雾发生时的气象条件、边界层特点、微物理特征等,并对典型个例进行讨论。总结发现:海雾易出现在低压前部、高压后部和冷锋前部等天气形势下;雾过程中,地面以偏东风为主,高空以偏东、偏南风为主;雾滴数浓度(N)的平均值变化范围为170~372 cm-3,液态水含量(LWC)为0.018~0.170 g m-3,平均半径为1.71~3.28 μm。选取了一个典型个例来研究典型天气形势下海雾宏微观特征,该过程发展初期以核化凝结为主,在水汽不充足时,大量的雾滴凝结核争食水汽,使得N增加而平均半径几乎不变。根据自动转化阈值T可以看出,成熟时期碰并效率增加,大滴端数密度增加,滴谱拓宽。结合边界层气象要素演变分析发现,在夜间急流显著时,不利于雾滴生长,LWC较低;而高空风速较小,逆虚温较强可能是消散阶段平均半径出现跃增的原因。雾滴谱呈双峰分布,且瞬时谱符合Gamma分布;液态水含量与消光系数、有效半径呈正相关关系,相关系数分别为0.95和0.97。 相似文献
11.
一次南海海雾微物理结构个例分析 总被引:13,自引:2,他引:11
本文利用2010年3月22~23日广东省湛江市一次海雾过程的雾滴谱和能见度资料,分析了海雾的微物理特征及微物理参量(数浓度、液态含水量和平均直径)之间的相关性,并讨论了影响海雾的主要物理过程。结果表明:湛江地区海雾的平均雾滴谱符合Junge分布;在海雾发展和成熟阶段,雾滴谱拓宽过程以及数浓度与平均直径的正相关关系表明本次海雾过程主要以雾滴活化和凝结增长过程为主;湍流过程的参与使得雾滴混合均匀,雾滴平均直径向3.5 μm附近集中,趋向平均化。同时湍流使雾体内部和外部空气交流,外部空气的凝结核核化,数浓度升高,凝结增长造成小雾滴变大。 相似文献
12.
13.
近地层辐射过程与雾微结构的相互作用特征 总被引:2,自引:2,他引:0
利用2006-2009年南京郊区(32°12’N,118°42’E,25ma.s.1)冬季雾综合观测资料,分析了近地层辐射特征与雾微物理结构的相互作用。结果表明,净辐射通量密度介于-50~+25W·m12时,雾层中雾滴数浓度逐渐增加,且雾滴半径越小,雾滴数密度增大越显著。近地层辐射冷却或弱增温,有利于雾滴活化和凝结增长。地面辐射增温较强时,雾滴数浓度和不同尺度雾滴数密度均减少,且雾滴半径越小,雾滴数密度减小得越快。太阳短波反射率的变化主要受雾滴数浓度、平均半径和液态含水量的影响。雾过程中,雾滴数浓度和液态含水量每增大100cm-3和0.001g·m-1。引起的太阳短波反照率的增量分别为5.29×10-3和1.18×10-4。 相似文献
14.
A cloud-resolving mesoscale model with a two-moment microphysical scheme has been used. The software package for cloud seeding and two categories of precipitation elements (graupel and frozen raindrops) are incorporated in the model. The aim of this study was to investigate the impact of cloud droplet concentration on hail suppression effectiveness. The concentration level of cloud droplets is prescribed in the model. We performed sensitivity tests of precipitation amounts (rain and hail) on the cloud droplet concentration in unseeded and seeded cases. We demonstrated for the unseeded case that increasing the concentration of cloud droplets created a reduction in rain accumulation, while the amount of hail accumulation increased. It is necessary to understand whether natural diversity in the cloud droplet concentration can affect the effectiveness of hail suppression. For operational cloud seeding activities, it would be helpful to determine whether it is possible to suppress hail if we know the optimal level of concentration for cloud droplets. Our study showed that hail suppression effectiveness had the greatest influence on lowering cloud droplet concentration levels; suppression effectiveness decreased as the cloud droplet concentration increased. 相似文献
15.
含水量对冰晶增长影响的风洞实验研究 总被引:1,自引:0,他引:1
用小型垂直过冷云风洞及其测试系统,使冰晶在自由悬浮的情况下生长。在实验温度为-5℃—15℃、含水量为0.5—2.0g/m~3的范围内,结果表明:在水面饱和条件下,冰晶的形状决定于所处的环境温度,含水量的大小对冰晶的基本形状没有影响,只是当含水量加大时,冰晶上会出现更加明显的碰冻增长的痕迹;冰晶的质量和速度增长的峰值和谷值温度分布与含水量的大小无关;随着含水量的增加,冰晶的质量和下落速度的增长会加快,但没有发现含水量的增加有加快冰晶2a轴增长的明显效果。 相似文献
16.
Based on data of radiation fog events in Xuanen, Hubei province, 2010, this paper analyzes the microphysical process and evolution characteristics of radiation fogs with complicated substrate in the upper and middle reaches of the Yangtze River, and compares them with findings in other areas. Results are as follows: radiation fog in Xuanen is evidently weaker in droplet number concentration and liquid water content than land fogs in other areas. Its liquid water content fluctuates obviously, 0.01g/ m3 with visibility of 1,000 meters, which is quite different from that in urban areas, but similar to the Nanling Mountains. Bi-modal droplet distribution is likely to occur in Xuanen mountain radiation fog (MRF) events. Statistical analysis shows that the observed droplet size distribution can be piecewise described well by the Gamma distribution. There is a positive correlation between liquid water content, fog droplet concentration and mean radius, especially in the development and dissipation stage. Condensation growth and droplet evaporation are major processes of Xuanen MRF. The dissipation time coincided with the time when the grass temperature reached the peak value, which indicated that dew evaporation is a key role in maintaining Xuanen MRF. In the early stage of dense fog’s growth, droplets with diameter of over 20 micrometers can be observed with visibility of 800-1,000m, which might be caused by the transportation of low cloud droplets to earth’s surface by turbulence. Big droplets in the initial stage correspond to higher water content, leading to the higher observed value of water content of Xuanen MRF. 相似文献
17.
一次高压型海雾中的液态含水量演变特征 总被引:7,自引:2,他引:5
2008年3月16—17日在粤西电白出现了一次在高压天气系统控制下的海雾过程。利用这次海雾的综合观测数据,分析了这一高压型海雾的液态含水量演变特征,讨论了液态含水量与雾滴平均直径和数密度以及气温、风速、湍流交换等的关系。结果显示:(1)海雾有发展-消散-再发展的准周期性变化特征;(2)海雾过程中的雾滴数有显著的变化,而雾滴平均直径的变化较小;雾滴数变化对海雾的发展、消散起主要作用;(3)在海雾生成和发展阶段,空气的冷却机制起主要作用;而在海雾的维持阶段冷却机制的作用并不明显;(4)在雾的生成阶段,弱湍流交换有利于雾的生成;而在雾的发展和维持阶段,湍流交换减弱,液态水增长,反之液态水减少。湍流交换的强、弱与海雾发展-消散-再发展的周期性变化有密切关系。 相似文献
18.
利用2015—2017年秋冬季在江苏北部观测到12次雾过程的雾滴谱数据及常规气象观测资料,统计分析了轻雾、大雾、浓雾、强浓雾和特强浓雾等级下的微物理特征量及雾滴谱分布,并通过一次雾过程的分析,探讨了不同雾等级下的主要微物理过程。结果表明:随着雾等级的提升,雾滴数浓度、含水量增长明显,而轻雾、大雾和浓雾的雾滴平均直径和最大直径差异不大,但当能见度小于200 m时,平均直径和最大直径显著增大;能见度下降时,平均数浓度谱和含水量谱的谱线上抬,从浓雾到强浓雾,粒径大于10 μm的大雾滴增长明显;雾滴数浓度主要由小雾滴控制,雾滴含水量受大雾滴影响;东海县郊平均的雾滴含水量与南京观测结果相差不大,但雾滴数浓度仅为南京的一半左右,平均直径大约是南京的2.3倍;个例分析中,能见度从1000 m下降到50 m,凝结核活化并凝结增长是主要微物理过程,但可凝结水汽是影响该过程效果的一个重要因子,可使雾滴数浓度和平均直径呈现不同的相关关系;能见度降到50 m以下时,碰并过程效果显著;日出后雾滴蒸发作用显现并逐步增强。 相似文献
19.
Examination of Microphysical Relationships and Corresponding Microphysical Processes in Warm Fogs 总被引:1,自引:0,他引:1
LU Chunsong LIU Yangang NIU Shengjie ZHAO Lijuan YU Huaying CHENG Muning 《Acta Meteorologica Sinica》2013,27(6):832-848
In this paper, the microphysical relationships of 8 dense fog events collected from a comprehensive fog observation campaign carried out at Pancheng(32.2 N, 118.7 E) in the Nanjing area, China in the winter of 2007 are investigated. Positive correlations are found among key microphysical properties(cloud droplet number concentration, droplet size, spectral standard deviation, and liquid water content) in each case, suggesting that the dominant processes in these fog events are likely droplet nucleation with subsequent condensational growth and/or droplet deactivation via complete evaporation of some droplets. The abrupt broadening of the fog droplet spectra indicates the occurrence of the collision-coalescence processes as well, although not dominating. The combined efects of the dominant processes and collision-coalescence on microphysical relationships are further analyzed by dividing the dataset according to visibility or autoconversion threshold in each case. The result shows that the specific relationships of number concentration to volume-mean radius and spectral standard deviation depend on the competition between the compensation of small droplets due to nucleation-condensation and the loss of small droplets due to collision-coalescence. Generally, positive correlations are found for diferent visibility or autoconversion threshold ranges in most cases, although negative correlations sometimes appear with lower visibility or larger autoconversion threshold. Therefore, the compensation of small droplets is generally stronger than the loss, which is likely related to the sufcient fog condensation nuclei in this polluted area. 相似文献
20.
南京冬季浓雾的演变特征及爆发性增强研究 总被引:5,自引:2,他引:3
2007年12月18—19日,南京地区出现了一次持续20h的浓雾过程,其中能见度低于50m的强浓雾几乎占到整个雾过程的1/3。利用同期在南京市北郊的外场观测数据,结合NCEP再分析资料,分析了该次雾的演变过程、微物理结构及边界层特征,探讨了地面雾爆发性增强的成因。结果表明:本次雾在西南平流的增湿作用下触发生成;日出后,平流输送和地表蒸发提供了充足水汽来源,贴地层逆温因高空下沉增温而向上抬升且稳定存在,因此大雾得以维持;整个雾过程中雾滴数浓度、平均直径、含水量随时间的变化趋势基本一致,平均谱曲线均呈指数下降分布,雾滴集中在小滴端;两次地面雾爆发性增强均发生在夜间,其特征为各微物理参量明显增大,滴谱上抬拓宽;爆发性增强的原因是地表气温陡降、贴地层逆温增强及可充当雾滴凝结核的气溶胶大粒子数增多。 相似文献