共查询到18条相似文献,搜索用时 125 毫秒
1.
甘肃庆阳市雾的气候特点及其预报思路初探 总被引:1,自引:0,他引:1
通过统计甘肃庆阳市1971~2003年的历史资料,分析了庆阳市雾的气候特征:庆阳市年均雾日最大值出现在西峰、合水一带,雾日以秋季9月、10月和春季3月出现较多,夏季、冬季和春季4月、5月较少。对2000~2003年出现的101次雾天气条件做了分析,就形成雾的原因和环流特征做了初步探讨,并归纳提出了庆阳市雾预报的着眼点和一般的预报思路,辐射雾和平流雾分别对应两种截然相反的天气条件,要根据形成雾的天气系统环流典型场采取不同的预报思路,着重分析天气系统的演变,还要分析本地湿度、温度和风向风速等气象要素场的变化特征。 相似文献
2.
结合气象观测和大气边界层探测资料,分析了1990年1月2日重庆雾的声雷达回波特征,并与1989年12月30日雾的回波作了比较。结果表明,雾顶回波高度与逆温和相对湿度的转折高度一致;雾顶回波在雾的成熟期呈现波动,在消散期有一下降过程。上午大气污染物地面浓度的变化与逆温混合层状况有密切关系,混合层较薄且持续时间较长时,地面浓度较大 相似文献
3.
“重庆雾害”课题组 《成都信息工程学院学报》1992,(2)
本文首先对重庆雾1981~1987年159个例进行500hPa、700hPa、850hPa各气象要素的相关和合成分析,得到了影响重庆雾的主要因子和主要关键区以及雾发生时24小时以前各层要素场的异常特征。在此基础上,对重庆雾进行了分类,用关键区的因子作为自变量,利用逐步回归残差订正和模型集成,建立起重庆雾24小时预报模型,并设计成软件系统,在IBM机上自动预报。 相似文献
4.
目前,物理模型的单幅图像去雾已成为图像去雾算法研究的重点。在分析了暗原色先验知识的单幅图像去雾算法基础上,针对暗原色先验去雾算法时间复杂度大的缺点,比较了目前已有的暗原色先验改进去雾算法,提出了一种新的暗原色先验单幅图像去雾改进算法。通过引入快速、各向同性的低通高斯滤波器,实现对透射率图的平滑均匀,以代替暗原色去雾方法中精妙但时间复杂度高的软抠图算法;对于图像中图层交界处,提出了以区域中值滤波方法进行修正的算法,以及满足自适应要求的全局大气光求解详细算法。实验结果表明,结合了以上3点改进的快速去雾算法在保证图像去雾效果的同时,能大幅度提高暗原色去雾算法的速度,适用于对工程上的图像、视频实时去雾。 相似文献
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为探索广汉机场雾发生发展的机制,确保飞行安全,提高预报准确率,利用广汉机场地面观测资料、Mi—caps系统下的常规观测资料、探空资料和NCEP/NCAR再分析资料,采用天气诊断分析方法,对2012年11月13日-15日广汉机场持续性的辐射平流雾进行分析。结果表明,雾是在稳定的天气背景下形成。夜间地面长波辐射冷却触发了这次雾的形成,而在轻雾转大雾期间,地面长波辐射冷却作用明显减弱,低层暖湿平流则起到了主要作用。与典型辐射平流雾不同的是成雾后,机场由脊前西北气流转为南支槽前西南气流控制,天空中云量的迅速增加使得雾进一步加强。 相似文献
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在雾天情况下,室外采集到的图像易受到噪声干扰,质量降低,清晰度下降。在对常用的几种图像去雾方法的对比分析及研究的基础上,提出了改进的基于小波变换结合暗原色先验去雾的快速算法。通过小波分解可求出近似环境光,对环境光,大气光的估计,可对原图像进行复原。实验表明,改进的算法不但去雾效果明显,图像色彩丰富,而且可以有效地减少运行时间,提高运行速度。 相似文献
8.
本文对浑源地区内中新元古界进行了层序地层划分,探讨了其沉积环境及演化。得出中新元古界由五个Ⅲ级层序组成,并经历了二次沉积—构造分异作用:第一次分异发生于高于庄组二段沉积晚期,第二次分异发生于雾迷山组沉积中期等结论。 相似文献
9.
黄黎红 《地球信息科学学报》2018,20(2):228-234
利用暗原色先验进行单幅图像去雾时,需采取高计算复杂度的细化程序,否则其估计的传输率易在边界处造成光晕。对导致边界处产生光晕现象的原因进行分析时发现,计算复杂度高的细化程序在去除晕轮效应时去雾过度,且传统的基于暗原色先验的单幅去雾算法在明亮区域易造成色彩失真现象。由此在原来的透射率估计时,提出一种基于色调的简单而快速的邻域分割方法。首先将原始RGB图像转换到HSI色彩空间,在H(Hue)通道中,用邻域中的点与中心点的色调的差值绝对值,来判断该邻域内的点是否属于同一区域,只使用属于同一区域的像素点来计算该区域的暗原色值;再通过修正透射率值,来校正明亮区域的色彩失真。在图像复原时,在HSI色彩空间保留色调分量不变,仅对强度分量运用修改的暗原色值进行去雾,再进行非线性增强,最后对饱和度分量进行颜色补偿。实验表明,本文的去雾算法能够显著提高场景的视觉清晰度,而且不需要图像后续修补,并能获得更好的色彩视觉保真。 相似文献
10.
青岛是我国缺水城市之一。但本已紧缺的水资源却存在着水质污染、开采漏斗、海(咸)水入侵及高氟水等一系列水环境问题。文中分析了其发生原因、危害程度及发展趋势,并提出了综合治理建议。 相似文献
11.
通过计算对流层延迟和精密单点定位的点位坐标,研究雾霾天气对GPS天顶对流层延迟和精密单点定位精度的影响。结果表明,当空气质量持续良好、没有雾霾发生时,空气质量指数(air quality index, AQI)与对流层延迟的相关性很小;当重度雾霾天气持续发生时,雾霾会对天顶对流层延迟产生40~60 mm的影响。但在精密单点定位中,通过对对流层延迟进行参数估计的方法可以消除绝大部分雾霾对定位精度的影响,因此无论重度雾霾天气是否发生,AQI指数与精密单点定位精度的相关性很小。 相似文献
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Fog has recently become a frequent high-impact weather phenomenon along the coastal regions of North China. Accurate fog forecasting remains challenging due to limited understanding of the predictability and mechanism of fog formation associated with synoptic-scale circulation. One frequent synoptic pattern of fog formation in this area is associated with cold front passage(cold-front synoptic pattern, CFSP). This paper explored the predictability of a typical CFSP fog event from the perspective of analyzing key characteristics of synoptic-scale circulation determining fog forecasting performance and the possible mechanism. The event was ensemble forecasted with the Weather Research and Forecasting model. Two groups of ensemble members with good and bad forecasting performance were selected and composited. Results showed that the predictability of this case was largely determined by the simulated strengths of the cold-front circulation(i.e., trough and ridge and the associated surface high). The bad-performing members tended to have a weaker ridge behind a stronger trough, and associated higher pressure over land and a weaker surface high over the sea, leading to an adverse impact on strength and direction of steering flows that inhibit warm moist advection and enhance cold dry advection transported to the focus region. Associated with this cold dry advection, adverse synoptic conditions of stratification and moisture for fog formation were produced, consequently causing failure of fog forecasting in the focus region. This study highlights the importance of accurate synoptic-scale information for improved CFSP fog forecasting, and enhances understanding of fog predictability from perspective of synoptic-scale circulation. 相似文献
13.
A stratus-sea fog event that occurred over the Yellow and East China Seas on 3 June 2011 is investigated using observa-tions and a numerical model, with a focus on the effects of background circulation and Sea Surface Temperature Front (SSTF) on the transition of stratus into sea fog. Southerly winds of a synoptic high-pressure circulation transport water vapor to the Yellow Sea, creating conditions favorable for sea fog/stratus formation. The subsidence from the high-pressure contributes to the temperature inversion at the top of the stratus. The SSTF forces a secondary circulation within the ABL (Atmospheric Boundary Layer), the sink-ing branch of which on the cold flank of SSTF helps lower the stratus layer further to reach the sea surface. The cooling effect over the cold sea surface counteracts the adiabatic warming induced by subsidence. The secondary circulation becomes weak and the fog patches are shrunk heavily with the smoothed SSTF. A conceptual model is proposed for the transition of stratus into sea fog over the Yellow and East China Seas. Finally, the analyses suggest that sea fog frequency will probably decrease due to the weakened SSTF and the reduced subsidence of secondary circulation under global warming. 相似文献
14.
In this study, a sea fog event which occurred on 27 March 2005 over the Yellow and Bohai Seas was investigated observationally and numerically. Almost all available observational data were used, including satellite imagery of Geostationary Operational Environmental Satellite (GOES)-9, three data sets from station observations at Dandong, Dalian and Qingdao, objectively reanalyzed data of final run analysis (FNL) issued by the National Center for Environmental Prediction (NCEP) and Regional Atmospheric Modeling System (RAMS) results. Synoptic conditions and fog characteristics were analyzed. The fog formed when warm,moist air was advected northwards over the cool water of the Yellow and Bohai Seas, and dissipated when a cold front brought northerly winds and cool, dry air. In order to better understand the fog formation mechanism, a high-resolution RAMS modeling with a 6km×6km grid, initialized and validated by FNL data, was designed. A 48h modeling that started from 12 UTC 26 March 2005reproduced the main characteristics of this sea fog event. The simulated lower visibility area agreed reasonably well with the sea fog region identified from the satellite imagery. Advection cooling effect seemed to play a significant role in the fog formation. 相似文献
15.
Aimed at the two problems of underwater imaging, fog effect and color cast, an Improved Segmentation Dark Channel Prior (ISDCP) defogging method is proposed to solve the fog effects caused by physical properties of water. Due to mass refraction of light in the process of underwater imaging, fog effects would lead to image blurring. And color cast is closely related to different degree of attenuation while light with different wavelengths is traveling in water. The proposed method here integrates the ISDCP and quantitative histogram stretching techniques into the image enhancement procedure. Firstly, the threshold value is set during the refinement process of the transmission maps to identify the original mismatching, and to conduct the differentiated defogging process further. Secondly, a method of judging the propagating distance of light is adopted to get the attenuation degree of energy during the propagation underwater. Finally, the image histogram is stretched quantitatively in Red-Green-Blue channel respectively according to the degree of attenuation in each color channel. The proposed method ISDCP can reduce the computational complexity and improve the efficiency in terms of defogging effect to meet the real-time requirements. Qualitative and quantitative comparison for several different underwater scenes reveals that the proposed method can significantly improve the visibility compared with previous methods. 相似文献
16.
Based on the observed and NCEP reanalysis data from 1985 to 2006,the climate background and synoptic situation of fog at Great Wall Station were analyzed. It is shown that the seasonal variation of fog is controlled by the change of general circulation and local pressure field. Three favorable typical synoptic situations for fog development are found, the Front-of-A-Depression type, the Saddle-Shaped-Field type and the Passing-Weak-Cyclone type. The first one is the most important situation. Advection cooling fog is dominant at Great Wall Station, but there are other kinds of fog as well. As a result, some helpful principles for local fog forecasting are given. 相似文献
17.
In this paper, a heavy sea fog event occurring over the Yellow Sea on 11 April 2004 was investigated based upon observational and modeling analyses. From the observational analyses, this sea fog event is a typical advection cooling case. Sea surface temperature(SST) and specific humidity(SH) show strong gradients from south to north, in which warm water is located in the south and consequently, moisture is larger in the south than in the north due to evaporation processes. After fog formation, evaporation process provides more moisture into the air and further contributes to fog evolution. The sea fog event was reproduced by the Regional Atmospheric Modeling System(RAMS) reasonably. The roles of important physical processes such as radiation, turbulence as well as atmospheric stratification in sea fog’s structure and its formation mechanisms were analyzed using the model results. The roles of long wave radiation cooling, turbulence as well as atmospheric stratification were analyzed based on the modeling results. It is found that the long wave radiative cooling at the fog top plays an important role in cooling down the fog layer through turbulence mixing. The fog top cooling can overpower warming from the surface. Sea fog develops upward with the aid of turbulence. The buoyancy term, i.e., the unstable layer, contributes to the generation of TKE in the fog region. However, the temperature inversion layer prevents fog from growing upward. 相似文献
18.
Atmospheric turbulence plays a vital role in the formation and dissipation of fog. However,studies of such turbulence are typically limited to observations with ultrasonic anemometers less than 100 m above ground. Thus,the turbulence characteristics of upper fog layers are poorly known. In this paper,we present 4-layers of data,measured by ultrasonic anemometers on a wind tower about 400 m above the sea surface; we use these data to characterize atmospheric turbulence atop a heavy sea fog. Large differences in turbulence during the sea fog episode were recorded. Results showed that the kinetic energy,momentum flux,and sensible heat flux of turbulence increased rapidly during the onset of fog. After onset,high turbulence was observed within the uppermost fog layer. As long as this turbulence did not exceed a critical threshold,it was crucial to enhancing the cooling rate,and maintaining the fog. Vertical momentum flux and sensible heat flux generated by this turbulence weakened wind speed and decreased air temperature during the fog. Towards the end of the fog episode,the vertical distribution of sensible heat flux reversed,contributing to a downward momentum flux in all upper layers. Spatial and temporal scales of the turbulence eddy were greater before and after the fog,than during the fog episode. Turbulence energy was greatest in upper levels,around 430 m and 450 m above mean sea level(AMSL),than in lower levels of the fog(390 m and 410 m AMSL); turbulence energy peaked along the mean wind direction. Our results show that the status of turbulence was complicated within the fog; turbulence caused fluxes of momentum and sensible heat atop the fog layer,affecting the underlying fog by decreasing or increasing average wind speed,as well as promoting or demoting air temperature stratification. 相似文献