感应电机矢量控制系统的仿真研究

根据2008年4—7月黄山大气气溶胶观测资料,研究了气溶胶粒子的数浓度、谱分布特征及其与气象因子的关系,探讨了雾天和非雾天气溶胶颗粒物时间和尺度分布特点。分析发现,黄山光明顶春、夏季大气气溶胶数浓度的平均值分别为3.14×103个/cm3和1.80×103个/cm3,其中超细粒子（粒径小于0.1μm的粒子）在春夏季分别约占总粒子数浓度的79%和68%;高数浓度值集中在粒径0.04～0.12μm;积聚模态气溶胶粒子（0.1～1.0μm）在体积浓度分布和表面积分布中占很大比例。结合气象资料比较了雾天与非雾天气溶胶分布的差异,发现细粒子浓度非雾天大于雾天,而气溶胶数浓度与温度呈正相关,与相对湿度成反相关。结果还发现,黄山在春季以西北风和偏南风为主,西北风时气溶胶数浓度较高,在夏季主要以偏南风,特别是西南风为主,但是气溶胶数浓度的高值多发生在偏东风的条件下。     

Precipitation effects on aerosol concentration in the atmospheric surface layer

The effects of wintertime and summertime precipitation on the mean (semiannual, seasonal, and monthly) concentration of aerosol particles of different sizes in the atmospheric surface layer are analyzed on the basis of the data of 15-year measurements of atmospheric aerosol in the town of Dolgoprudny (20 km from the center of Moscow). It is demonstrated that a statistically significant negative correlation between the aerosol particle concentration and the precipitation is observed for monthly mean values only and is absent for semiannual and seasonal means. The analysis of individual cases of precipitation corroborated the conclusion on their low impact on the aerosol concentration in the surface layer. In winter, the aerosol concentration decrease is observed within a narrow particle size interval of 0.03?C0.1 ??m and amounts to not more than 30% during several hours. A scavenging effect of summertime precipitation manifests itself in a wider size interval of 0.03?C1.0 ??m but does not exceed 10?C20% and is of short-term nature. The limited effects of precipitation on the surface aerosol are explained by the proximity to the underlying surface being a permanent aerosol source.     

2009年石家庄地区不同天气条件下大气气溶胶分布特征

利用2009年石家庄地区的4次机载PMS探测资料,对不同天气条件下大气气溶胶的数浓度、平均直径垂直分布和谱分布及一次晴天条件下的水平分布进行分析。结果表明：PCASP 探头探测的0.1-3.0 μm气溶胶粒子最大数浓度的量级为102-104 cm-3之间,平均值量级为102-103 cm-3之间,平均直径最大值介于0.225-0.717 μm,平均值介于0.148-0.167 μm。晴天条件下,气溶胶的数浓度随高度递减,直径随高度变化不大;逆温层底气溶胶明显积累,气溶胶浓度在大气边界层内明显高于其他层次;阴天轻雾情况下边界层内的气溶胶数浓度大于雨天和晴天,雨天气溶胶浓度最低;晴天气溶胶数浓度的水平分布不均匀;在云中气溶胶浓度明显下降,在云外气溶胶浓度较高。不同天气条件和晴天不同高度情况下,石家庄地区气溶胶谱型呈单峰分布,小于0.3 μm的细粒子对气溶胶的数浓度贡献最大,且随着高度的增加谱宽变窄。     

一次秋季冷锋降水过程气溶胶与云粒子分布的飞机观测

利用机载PMS（Particle Measuring Systems）测量系统,对2008年10月4—5日石家庄地区一次冷锋降水云系的3次气溶胶和云粒子探测资料进行了分析。结果表明,冷锋过境降水前后,气溶胶粒子分布差异较大。降水发生前,气溶胶粒子平均数浓度约为103cm-3,平均直径为0.95μm;气溶胶主要集中于3000m高度以下的对流层低层,云内气溶胶数浓度明显减少。降水发生后,气溶胶粒子平均数浓度约为102cm-3,比降水前约小1个量级,平均直径为1.28μm;气溶胶主要集中于1200m以下的近地面层,其数浓度随高度增加而降低。气溶胶粒子浓度在低层云区内水平变化较小,而在无云区和云下近地层水平起伏较大。云粒子平均浓度比气溶胶小1～2个量级。气溶胶粒子平均谱主要呈双峰型,而云粒子谱主要为单峰型。     

青藏高原中东部气溶胶特征的飞机观测

利用2011年和2013年夏秋季在青藏高原中东部开展的11架次气溶胶特征飞机观测数据,分析气溶胶数浓度、数谱及核化相关特征。结果表明:受天气系统、地形和地表影响,观测区内气溶胶数浓度（N_a）和体积直径（D_v）的垂直和水平分布差异较大,N_a呈西北高、东南低,D_v低层大、高层小,局地中高层有沙尘。格尔木盛行东风时,云降水对低层气溶胶有清除作用,N_a和D_v明显降低,6.2 km高度和7.2~7.4 km高度的中高空受高原大风或对流影响形成沙尘;盛行西风时,低层D_v以0.5~0.8 μm为主,随高度升高和风速增大N_a升高,D_v变幅较小,6.2 km高度也有沙尘;不同天气系统影响下6.5 km高度以上均输入亚微米颗粒,N_a达5×103 cm-3,8.0 km高度盛行东风时比西风时N_a更高,D_v更小,谱垂直分布也有以上特征,整层输入以偏北或偏西路径为主。不同过饱和度测量云凝结核数浓度（N_ccn）表明,除格尔木6.0 km高度以下核化率（N_ccn/N_a）在21%~47%外,其他观测区平均核化率介于1%~16%,6.0~8.5 km高度的核化率总体偏低;当N_a增加时核化率明显下降,且过饱和度1%~2%,-15~-5℃层或粒径1~3 μm时的核化率相对偏高。     

广州地区旱季一次典型灰霾过程的特征及成因分析

通过研究2009年11月广州市气溶胶颗粒物质量浓度(PM10、PM2.5、PM1)、黑碳浓度、散射系数(Scatter)等大气成分要素,以及微波辐射计、激光雷达及风廓线雷达所探测的风、温、湿等边界层结构,统计分析广州旱季一次典型灰霾过程(2009年11月23—29日)中气溶胶颗粒物及其光学特性的时空变化特征,并配合天气形势背景、边界层结构对其形成原因进行详细分析。在典型灰霾过程中,黑碳浓度高达58.7μg/m3,散射系数高达1 902.7 Mm-1,PM10浓度高达423.5μg/m3,PM2.5浓度高达355.7μg/m3,PM1浓度高达286.5μg/m3。通过对同期的气象条件分析表明在广州地区旱季,区域性污染过程,特别是灰霾天气的形成具有以下三种气象条件:大气边界层高度较低;高压变性出海的天气形势与之密切相关;在偏东和偏南气流带来的高湿度环境下,气溶胶吸湿增长效应显著,导致出现严重灰霾天气。     

Characteristics of atmospheric aerosol during the anomalous fall of 2005 in the Moscow region

Results are presented of measurements of total concentration and size spectrum of aerosol particles, of ice nuclei, and cloud condensation nuclei concentrations, as obtained during an anomalously arid period in September and October 2005 in the town of Dolgoprudny, Moscow oblast. It is shown that a two-month period of anticyclonic weather, associated with peat fires, caused a 1.5-time increase in the mean number concentration of aerosol at the site. Effects of accumulation of the industrial aerosol from Moscow and of peat bog burning products are different on fractions of particles of different sizes and on cloud-active nuclei. The smoke particles increased concentrations of almost all sizes from 0.042 to 10 μm; urban aerosol makes the greater part of concentration of particles in the middle subm-icron range and causes a significant increase in the concentration of cloud condensation nuclei.     

Observed changes in aerosol physical and optical properties before and after precipitation events

Precipitation scavenging of aerosol particles is an important removal process in the atmosphere that can change aerosol physical and optical properties. This paper analyzes the changes in aerosol physical and optical properties before and after four rain events using in situ observations of mass concentration, number concentration, particle size distribution, scattering and absorption coefficients of aerosols in June and July 2013 at the Xianghe comprehensive atmospheric observation station in China. The results show the effect of rain scavenging is related to the rain intensity and duration, the wind speed and direction. During the rain events, the temporal variation of aerosol number concentration was consistent with the variation in mass concentration, but their size-resolved scavenging ratios were different. After the rain events, the increase in aerosol mass concentration began with an increase in particles with diameter 0.8 μm [measured using an aerodynamic particle sizer(APS)], and fine particles with diameter 0.1 μm [measured using a scanning mobility particle sizer(SMPS)]. Rainfall was most efficient at removing particles with diameter ～0.6 μm and greater than 3.5 μm. The changes in peak values of the particle number distribution(measured using the SMPS) before and after the rain events reflect the strong scavenging effect on particles within the 100–120 nm size range. The variation patterns of aerosol scattering and absorption coefficients before and after the rain events were similar, but their scavenging ratios differed, which may have been related to the aerosol particle size distribution and chemical composition.     

在线连续流量扩散云室对华北冬季大气冰核的观测分析

利用国内首台在线连续流量扩散云室,2017年冬季在华北地区高山站开展了大气冰核观测;结合常规气象要素、降水滴谱、气溶胶观测,分析了大气冰核数浓度特征,并对冰核活化参数化方法以及降雪对冰核的影响进行了研究。结果表明:（1）大气冰核在不同时间的浓度差异较大,?20°C时数浓度变化范围为2.50～76.8 L?1,平均值为18.347 L?1;（2）大气冰核浓度随活化温度降低呈指数增加趋势,随过饱和度增加呈指数增加,凝华核化所占比例约为18.64%;（3）大气冰核与粒径大于0.5 μm的气溶胶数浓度的关系可用参数化表示,相关性大于仅基于活化温度建立的参数化公式;（4）降雪过程大气冰核具有先增加后减少的特征。降雪开始后大气冰核数浓度增加,降雪后期系统过境伴随的大风,对气溶胶的清洗作用明显,大气冰核随之减少。本研究为在线连续流量扩散云室类型的冰核观测仪在国内首次使用,所建立的冰核参数化公式有助于华北地区冬季地形云及其降水的微物理特征研究,同时在云模式的发展和人工影响天气研究中也有重要的参考意义。     

华北地区一次气溶胶与浅积云微物理特性的飞机观测研究

2014年8月15日,山西省人工降雨防雹办公室在山西忻州开展了气溶胶和浅积云的飞机观测,本文利用机载云物理资料,详细分析了华北地区气溶胶、云凝结核(CCN)和浅积云微物理特性及其相互影响.主要结论有:(1)此次过程的边界层高度约为3600 m,不同层结情况下,0.1～3μm尺度范围内的气溶胶粒子浓度Na、有效直径Da和...     

云南省积层混合云微物理特征飞机观测

2017-2020年利用运-12和空中国王-E350飞机搭载的国产云粒子测量设备在云南开展了 76架次积层混合云观测,数据分析表明:云南的云粒子数浓度远高于华北地区,云粒子(直径为2～50 μm)数浓度平均值为339.7 cm-3,最大值为1067.6 cm-3,平均含水量为0.181 g·m-3,最大值为2.827 ...     

Influence of vertical wind on stratospheric aerosol transport

The main goals of this work are climatological analysis of characteristics of vertical wind in the stratosphere and estimation of potential opportunities of its influence on stratospheric aerosol particles. High-altitude, temporal, and latitude dependences of zonal mean vertical wind velocity for the period of 1992?C2006 from the UKMO atmospheric general circulation model are analyzed. It is shown that monthly averaged amplitudes of the vertical wind are approximately ±5?mm/s, while annual averaged ones are ±1?mm/s. The upward wind can provide the vertical lifting against gravity for sufficiently large (up to 3?C5???m) aerosol particles with a density up to 1.0?C1.5?g/cm³ at stratospheric and mesospheric altitudes. The vertical wind, probably, is a substantial factor for particle motion up to altitudes of 30?C40?km and can change essentially the sedimentation velocities and the residence times of stratospheric aerosols. The structure of the averaged fields of vertical wind supposes the opportunity of formation of dynamically stable aerosol layers in the middle stratosphere. With the problem regarding the action of a permanent source of monodisperse particles near the stratopause taken as an example, it is shown that if the action of the averaged vertical component is taken into account along with the gravitational sedimentation and turbulent diffusion, the standard vertical profiles of the relative concentration of particles change cardinally. Estimations for the levitation heights for particles of different densities and sizes in the stratosphere under action of gravity and vertical wind pressure are presented.     

Diurnal and seasonal variations of meteorology and aerosol concentrations in the foothills of the nepal himalayas (Nagarkot: 1,900 m asl)

A 10-months long monitoring experiment to investigate the diurnal and seasonal variation of aerosol size distribution at Nagarkot (1,900 m asl) in the Kathmadu Valley was carried out as part of a study on katabatic and anabatic influence on pollution dispersion mechanisms. Seasonal means show total aerosol number concentration was highest during post-monsoon season (775 ± 417 cm^?3) followed by pre-monsoon (644 ± 429 cm^?3) and monsoon (293 ± 205 cm^?3) periods. Fine particle concentration (0.25 μm ≤ D_P ≤ 2.5 μm) dominated in all seasons, however, contribution by coarse particles (3.0 μm ≤ D_P ≤ 10.0 μm) is more significant in the monsoon season with contributions from particles larger than 10.0 μm being negligible. Our results show a regular diurnal pattern of aerosol concentration in the valley with a morning and an evening peak. The daily twin peaks are attributed to calm conditions followed by transitional growth and break down of the valley boundary layer below. The peaks are generally associated with enhancement of the coarse particle fraction. The evening peak is generally higher than the morning peak, and is caused by fresh evening pollution from the valley associated with increased local activities coupled with recirculation of these trapped pollutants. Relatively clean air masses from neighbouring valleys contribute to the smaller morning peak. Gap flows through the western passes of the Kathmandu Valley, which sweep away the valley pollutants towards the eastern passes modulated by the mountain - valley wind system, are mainly responsible for the dominant pollutant circulation patterns exhibited within the valley.     

潮州沿海大气气溶胶无机离子浓度分布与气象要素的相关分析

根据2004年广东潮州沿海地区的气溶胶浓度观测资料,分析潮州沿海大气气溶胶无机离子浓度分布特征及气象要素对其的影响。结果表明:离子浓度季节性差异明显,总离子浓度呈现春夏季低、秋冬季高的特征,系由当地不同季节降雨量和风向分布不同造成的;气溶胶无机成分与海水近似,表明海盐是当地气溶胶的重要来源之一,但Cl-与Na+不一致,表明可能存在除海盐颗粒以外的异地气溶胶长距离输送;总离子浓度随采样点高度增加而降低,随采样时海陆风变化而变化;阳离子浓度日际变化不明显,阴离子浓度易受天气条件影响。     

降水性层状云结构及微物理量相关性分析

利用飞机、雷达、卫星观测资料,对2014年5月1日08时—2日08时河北省一次降水性层状云结构特征进行综合观测分析。结果表明本次过程降水云大致分为3层:4 200~2 850 m为冷暖云结构,2 162~2 174 m为十几米厚的纯暖云,近地面层121~265 m有粒子浓度较低(量级为101cm-3)的暖云。降水开始前存在较明显的催化云—供给云结构,降水开始后高层对低层有催化作用。人工增雨潜力区主要位于3 100~4 000 m,对应的雷达回波强度为20~30 d Bz,且雷达回波强度垂直梯度明显变小。对不同高度的云微物理量进行相关性分析,结果表明,云底的液态水含量和云滴浓度与气溶胶浓度具有较强的负相关,过冷水含量与云滴浓度相关性达到0.434,云凝结核浓度在冷云中与温度相关性较强,相关系数达到0.717。     

Observational Study on the Supercooled Fog Droplet Spectrum Distribution and Icing Accumulation Mechanism in Lushan,Southeast China

A fog monitor, hotplate total precipitation sensor, weather identifier and visibility sensor, ultrasonic wind speed meter,an icing gradient observation frame, and an automated weather station were involved in the observations at the Lushan Meteorological Bureau of Jiangxi Province, China. In this study, for the icing process under a cold surge from 20–25 January2016, the duration, frequency, and spectrum distribution of agglomerate fog were analyzed. The effects of rain, snow, and supercooled fog on icing growth were studied and the icing and meteorological conditions at two heights(10 m and 1.5 m)were compared. There were 218 agglomerate fogs in this icing process, of which agglomerate fogs with durations less than and greater than 10 min accounted for 91.3% and 8.7%, respectively. The average time interval was 10.3 min. The fog droplet number concentration for sizes 2–15 μm and 30–50 μm increased during rainfall, and that for 2–27 μm decreased during snowfall. Icing grew rapidly(1.3 mm h-1) in the freezing rain phase but slowly(0.1 mm h-1) during the dry snow phase. Intensive supercooled fog, lower temperatures and increased wind speed all favored icing growth during dry snow(0.5 mm h-1). There were significant differences in the thickness, duration, density, and growth mechanism of icing at the heights of 10 m and 1.5 m. Differences in temperature and wind speed between the two heights were the main reasons for the differences in icing conditions, which indicated that icing was strongly affected by height.     

西安市一次晴空气溶胶粒子的观测分析

1982年夏季,我国第一架装有PMS粒子测量系统的气象科研考察飞机在西安市首次进行大气物理科学考察。本文仅对6月8日西安城市晴天大气气溶胶粒子观测。资料进行了初步分析。结果表明:西安市晴天气溶胶粒子(直径0.5-8μm)浓度值范围在4×10~0-3.8×10~1个/cm~3,分布趋势随高度递减,逆温层对粒子垂直输送有阻滞作用。同时对气溶胶粒子谱分布及谱分布函数作了探讨,并对一些参数进行理论计算。     

2010年民勤沙地近地面沙尘气溶胶浓度特征

为了更好地研究沙尘气溶胶起沙和输送特征,2010年4—5月,在民勤周边沙地利用EZ LIDAR ALS300&ALS450型激光雷达和 GRIMM 180型颗粒物采样器进行了大气气溶胶的外场连续观测,取得了晴天、浮尘、扬沙和沙尘暴天气条件下沙尘气溶胶总后向散射垂直剖面图和PM₁₀、PM_2.5、PM_1.0质量浓度采样资料,其中包含“0424”特强沙尘暴过程资料。结果表明：春季民勤近地层大气中沙尘气溶胶浓度较高,且随气象要素的变化很大;在整个观测期内,PM₁₀、PM_2.5、PM_1.0的平均质量浓度分别为202.3、57.4 μg/m³、16.7 μg/m³。在不同天气条件下,PM₁₀、PM_2.5、PM_1.0质量浓度的变化有很好的相关性,但变化趋势有所不同。在沙尘暴天气条件下,PM₁₀的日平均质量浓度高达2469.1μg/m³,是背景天气条件下PM10日平均质量浓度的100多倍,是浮尘天气条件下PM10日平均质量浓度的8倍,是扬沙天气条件下PM₁₀日平均质量浓度的2倍。PM_2.5在沙尘暴天气下日平均质量浓度为460.3 μg/m³,是背景天气条件下PM_2.5日平均质量浓度的45倍,是浮尘天气条件下PM_2.5日平均质量浓度的6倍,是扬沙天气条件下PM_2.5日平均质量浓度的1.4倍。PM_1.0在沙尘暴天气条件下的日平均浓度为92.7 μg/m³,是背景天气条件下PM_1.0日平均浓度的13倍,是浮尘天气条件下PM_1.0日平均浓度的7倍,是扬沙天气条件下PM_1.0日平均浓度的1.3倍。可见,风速增大时沙尘粒子浓度的增加对粒子粒径是有选择的,小粒子比重随沙尘浓度增加而相对减小,大粒子比重随沙尘浓度增加而相对增多;通过对“0424”特强沙尘暴过程的研究表明,一次沙尘暴过程往往包括沙尘暴、扬沙和浮尘天气中的两种类型;通过对激光雷达数据分析发现,在强沙尘暴发生过程当中,民勤沙地发生了非常严重的风蚀起沙现象。     

2009年天津首场大范围降水过程分析

基于多普勒天气雷达和天气图资料,并结合卫星反演云参数产品,对2009年4月18日出现在天津地区的一次大面积降水过程进行了分析,探讨了多普勒天气雷达资料在降水过程中的图像特征和卫星反演云参数分布特点,研究表明:①此次降水是层积混合云降水,主要受到500hPa河套低槽的影响,并配合地面江淮气旋的北上影响;②多普勒雷达反射率因子图上呈现出比较明显的初生、发展、维持、削弱四个阶段的特点,风廓线资料比较完整;③MODIS卫星过境时间,天津地区云粒子有效半径均在15μm以上,出现频数最多的云粒子有效半径为25～27μm,大气可降水与自动站雨量站1h降水量的大值区对应较好。     

强降水天气对南宁市气溶胶主要组分的影响程度

分别对比分析了晴天无云和台风影响出现强降水条件下南宁市气溶胶的变化特征。结果表明:大的降水和大的风速对南宁市气溶胶有较大的清除作用,风速的作用要大于降水的作用;在一定的风速条件下,降水对气溶胶的冲刷作用有限,当降水量达到一定程度之后,降水对气溶胶主要组分的清除作用不再明显;降水和风速对PM10的影响比SO2的明显;晴天条件下,PM10浓度占主要优势,强降水条件下SO2浓度占优势;强降水天气未能屏蔽交通活动对南宁市气溶胶的影响。