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1.
洱海盆地水面与地面气象要素变化特征的比较 总被引:1,自引:0,他引:1
依据大理国家气候观象台在洱海湖中建立的自动观测系统以及大理国家基本气象站观测资料,对2008至2009年的风、温、湿、压、降水要素的日变化和季节变化特征进行了对比分析。结果表明:受局地复杂地形和洱海的影响,洱海盆地近地层常年存在湖陆风、山谷风、峡谷风三者叠加效应引起的局地环流。水面盛行风向白天以东南风为主,夜间以东南风和西西南风为主,而地面白天以东东南风为主,夜间以静风和西西北风为主。年平均风速小,水面为2.9m/s,地面为2.4m/s。水面年平均气温为16.8℃,而地面为16.0℃。两观测点气温、相对湿度、气压均表现出明显的日变化特征,水面气温、相对湿度出现极大值和极小值的时间均比地面晚。全年降水多集中在5—10月。 相似文献
2.
Presented is a review of quantitative characteristics of atmospheric frontogenesis that describe it as the process of variations of the vector of the horizontal temperature gradient (both in value and in direction) in an individual particle. The frontogenesis that strives for recovering the thermal wind balance disturbed in the case of inhomogeneous advection, generates vertical circulation which is both thermally direct (warm air ascends relative to cold air) and thermally opposite (upward motions in the cold air). Given are the expressions for computing frontogenesis using the data on temperature, pressure, and wind. Used is the resolution of the frontogenetic vector function into components along the isoline of potential temperature both on and across the constant-pressure surface. The first component describes the change in the temperature gradient vector due to the rotation of isotherms (rotational frontogenesis), and the second component, the variations of the absolute value of the gradient (scalar frontogenesis). Quantitative characteristics of frontogenesis are efficient diagnostic parameters both for understanding weather processes and weather forecast specification and for the verification and enhancement of numerical models. 相似文献
3.
利用2012年6-8月31个自动观测站点气温资料,分析了北京中心商务区(CBD)夏季近地面气温时空分布特征及影响因子,并将CBD地区夏季气温监测数据与朝阳区气象站同期地面气温进行比较分析。结果表明:下垫面类型和人为热排放等差异是直接影响城市中心商务区近地面气温空间分布的主要原因。人口密集区、高层建筑与柏油路面集中区成为夏季月平均气温高值中心,较绿地覆盖区域的低值中心偏高约1.0 ℃;夜间人类活动及车辆使用造成的人为热排放是导致夜间城市地面气温空间差异的主要原因,而白天气温空间差异相对减小。CBD地区与朝阳站平均温差存在较明显的周内和日内变化韵律,且白天和夜间二者温差基本都为正值,但夜间的差值更加明显,即CBD地区平均气温一般高于朝阳站,表现出明显的附加城市热岛效应,而且这种附加城市热岛效应具有同城市热岛强度相近的日内变化规律。进一步分析表明,不同天气条件下CBD区域的附加城市热岛强度表现出显著差异,晴好微风少云天气情况下,附加城市热岛效应更明显,主要表现在夜间;阴天、高湿天气条件下,附加城市热岛效应在白天和夜间均较弱;降水天气条件下附加城市热岛效应日夜差异最小,说明日照和太阳辐射在引起附加城市热岛效应方面起着重要作用。不同天气条件下CBD地区内部的附加城市热岛效应空间分布基本一致。 相似文献
4.
利用北京地区稠密的地面观测网资料以及北京市观象台、海淀、上甸子3部风廓线仪的观测资料,通过分析2008年8月8日北京奥运会开幕式期间发生在北京地区的降水过程,讨论了此次过程中在环境风场、地形和城市热岛作用下,中尺度系统发展或减弱的可能机制及对城区降水的影响。结果表明:城市热岛和地形作用形成的次级环流圈对城区南北两侧的影响不同,在城区南侧,次级环流圈使南风减弱,同时受次级环流圈下沉气流影响,中尺度系统北上时会减弱;在城区北侧,次级环流圈使南风加强,中尺度系统南下时会使气流辐合增强,有利于中尺度系统发展。当环境风场是较弱的偏南风时,城市热岛-地形次级环流圈在城区1500 m以下形成辐合,以上辐散,在3000 m左右辐散最强,不利于北上的中尺度系统向城区发展形成降水。 相似文献
5.
使用2006年7月-2007年6月沪宁高速公路沿线梅村和仙人山站附近的逐分钟路面温度、气温、湿度、风向、风速、降水气象资料, 分析了梅村和仙人山不同季节和不同天气状况下路面温度的日变化特征。结果表明:不同季节路面温度和气温具有明显的日变化;日出至日落时段,路面温度与气温有较大差异。在此基础上,应用逐步回归方法建立了梅村和仙人山最高和最低路面温度统计模型, 得出最低路面温度模型模拟结果与实况的变化趋势接近,误差绝对值不超过2℃, 具有很好的实际应用价值; 而最高路面温度模型在一定程度上模拟结果偏差较大,实际应用中需进行适当修订。 相似文献
6.
This study investigated the relationships between sea surface temperature(SST) and weather phenomena in different seasons in the Bohai region(China). Five categories of weather phenomena were screened(i.e., fine, cloudy,foggy, rainy and windy conditions) and their relationships with the difference between air temperature and SST observed at Oil Platform A during 2003-2010 were analyzed statistically. The effects of the difference between air temperature and SST in different weather phenomena were examined using the flux method of the atmospheric boundary layer and a formula for the difference between air temperature and SST. The results revealed diurnal variation of the difference between air temperature and SST of-1.0 to +1.0 ℃, i.e., air temperature above the sea surface is subtracted from the SST in corresponding weather phenomena in different seasons in the Bohai region. Moreover,according to the formula for the difference between air temperature and SST, wind and shortwave radiation are the most important factors in terms of the effects of SST on weather processes. In conclusion, the effects of SST on weather phenomena are manifest via the exchange of momentum and energy from sea to air. When the air temperature above the sea surface is lower than the SST, the SST helps develop mesoscale convection systems within the synoptic system through moisture and sensible heat fluxes. When the air temperature above the sea surface is greater than the SST,synoptic systems transfer energy into the sea through heat flux, which affects SST variation. Moreover, a mesoscale convection system will weaken if the synoptic system passes over a colder underlying surface. 相似文献
7.
Abstract The atmospheric model of Danard et al. (1983) is used to investigate the changes in heat, mass and momentum fluxes at the air‐sea interface in Hudson Bay when the seasonal sea surface temperature is varied. Comparisons of model predictions with data from a meteorological buoy located 400 km offshore showed that the model predicted the variations in wind speed and air temperature fairly well but underestimated their magnitudes. In addition it provided offshore heat and mass fluxes for which no direct observations were available. The most important parameter determining air‐sea fluxes is the temperature difference between air and water. This determines the stability and the degree of vertical convection of the air. In the spring the colder water stabilizes the air, which depresses vertical convection. This reduces wind stress and evaporation while increasing the heat flux into the water. During the fall, the opposite occurs. The sea surface temperature is thus buffered against man‐made changes. When the temperature is decreased, for example, as the result of hydroelectric development in surrounding watersheds, the heat flux into the water increases while the wind stress decreases. Both effects increase the sea surface temperature, opposing the initial decrease. A one‐degree depression of sea surface temperature in summer is slowly offset by increased heating and no noticeable change in temperature remains at the end of the fall. 相似文献
8.
Hiroshi Ishida 《Boundary-Layer Meteorology》1989,47(1-4):71-84
Based on the data from an array of buoys during the JASIN-1978 field experiment made in an area northwest of Scotland, power spectra of surface wind speed and air temperature over the ocean in the mesoscale frequency range were studied. The averaged composite spectrum of wind speed for the whole period shows the existence of a spectral gap in the frequency range from 10–4 to 5 × 10–3 Hz. However, significant peaks in this range are often seen in particular spectra under certain weather conditions. Mesoscale spectral peaks of wind speed occur in 14 segments of the data record, approximately 10% of the total duration of the observations. In 4 of these segments, the mesoscale spectral peaks of both wind speed and air temperature occurred simultaneously. Several wave patterns of mesoscale atmospheric disturbances when mesoscale spectral peaks were seen are derived from phase differences between buoys. Significant mesoscale peaks in spectra appear in relatively strong winds and unstable or near-neutral atmospheric conditions, and none in stable atmospheric conditions. A criterion of wind speed and atmospheric stability is found for the mesoscale spectral peak appearance. 相似文献
9.
In southern China,cold air is a common weather process during the winter season;it can cause strong wind,sharp temperature decreases,and even the snow or freezing rain events.However,the features of the atmospheric boundary layer during cold air passage are not clearly understood due to the lack of comprehensive observation data,especially regarding turbulence.In this study,four-layer gradient meteorological observation data and one-layer,10-Hz ultrasonic anemometer-thermometer monitoring data from the northern side of Poyang Lake were employed to study the main features of the surface boundary layer during a strong cold-air passage over southern China.The results show that,with the passage of a cold air front,the wind speed exhibits low-frequency variations and that the wind systematically descends.During the strong wind period,the wind speed increases with height in the surface layer.Regular gust packets are superimposed on the basic strong wind flow.Before the passage of cold air,the wind gusts exhibit a coherent structure.The wind and turbulent momentum fluxes are small,although the gusty wind momentum flux is slightly larger than the turbulent momentum flux.However,during the invasion of cold air,both the gusty wind and turbulent momentum fluxes increase rapidly with wind speed,and the turbulent momentum flux is larger than the gusty wind momentum flux during the strong wind period.After the cold air invasion,this structure almost disappears. 相似文献
10.
The computed long-term annual mean and intramonthly variances of air and sea surface temperature, wind stress, effective radiation at the surface, heat gain over the ocean and the total heat loss for the tropical Indian Ocean between 30 °N and 30 °S are presented. These estimates, which are based on about one million weather reports for the period 1948–1972, indicate a mean annual meridional heat transport in agreement with previous estimates in direction though different in magnitude. The annual mean E-P chart shows that the Bay of Bengal region is highly conducive to large-scale convergence. 相似文献
11.
M. A. Novitskii L. K. Kulizhnikova M. K. Matskevich N. F. Mazurin 《Russian Meteorology and Hydrology》2012,37(4):235-239
Presented are the results of measurements of air temperature, wind direction, and relative humidity of the air at the high-altitude meteorological mast in the town of Obninsk. The measurements were carried out in the period of hot weather in July?CAugust 2010 near the Earth??s surface, as well as at the heights of 121 and 301 m. The wind roses and maximum daily temperatures are compared with the similar climatic characteristics obtained for the period of 1970?C2009. It is shown that the period from July 15 to August 18, 2010 was abnormal both in the air temperature characteristics and in the distribution of wind direction at all mentioned heights. 相似文献
12.
计算并分析了景德镇市出现雨夹雪、一般降雪、大雪(分别简称为Ⅰ类、Ⅱ类、Ⅲ类降雪)形势场、本站要素、层结资料,概括了3类降雪的天气学概念模型。分析结果表明:(1)3类降雪天气过程中,高空500 hPa有强盛的西南偏西气流,且随着降雪强度的增大,西南风速逐渐增大。地面则有较强冷空气堆积,位于贝加尔湖西部的冷高压中心气压在1 050 hPa以上,景德镇处于冷高压底部。925 hPa 30°N附近冷空气势力强,气温低。Ⅰ类降雪的主要影响系统是在江西省北部上空交汇的冷、暖平流,Ⅱ类、Ⅲ类则是850 hPa的切变线,出现Ⅲ类降雪时切变线位于景德镇附近,而出现Ⅱ类降雪时切变线则稍偏南,位于赣中。(2)地面气温变化是降水相态改变的关键,气温越低,越易出现降雪。从大雪至雪后雨,气温逐渐上升。(3)中低层的气温,Ⅱ类降雪较Ⅰ类低;近地面层气温,Ⅲ类降雪与Ⅱ类降雪接近;700 hPa和850 hPa层气温,Ⅲ类降雪比Ⅱ类降雪偏高。(4)Ⅰ类降雪常伴有逆温,但在向Ⅱ类降雪的转换过程中,逆温逐渐减弱,到Ⅲ类降雪时,逆温消失。(5)3类降雪均存在明显的风垂直切变,低层风弱,高层风强,且随着降雪强度的增大,表现愈加明显。 相似文献
13.
Hiroshi Ishida 《Boundary-Layer Meteorology》1990,52(4):335-348
Seasonal variations of the spectra of wind speed and air temperature in the mesoscale frequency range from 1.3 × 10-4 to 1.5 × 10-3 Hz (10 min to 2 h periods) have been studied through observations over land for one year. Spectrographs [time series of isopleths of spectral densities, f · S(f) vs f] of wind speed and air temperature contain occasional peaks that are attributed to short-lived mesoscale atmospheric activity with narrow frequency bands. Significant spectral peaks of wind speed were found in 19% of the total observations in winter, and in 15–16% in the other seasons; for air temperature, they occured in 12% of observations in autumn, and in 16–19% in the other seasons. The peaks most often occurred in the period range from 30 min to 1 h; most had durations less than 24 h. Mesoscale fluctuations of wind speed and air temperature were highly correlated, and in most cases, phase differences were 90–180 ° with air temperature leading wind speed. Significant spectral peaks of wind speed often occurred during northerly seasonal cold winds in winter, and accompanied tropical and/or mid-latitude cyclones in the other seasons. When the peaks occurred, wind speed was usually relatively high and the atmospheric surface layer was unstable. 相似文献
14.
《Atmospheric Research》1996,43(1):31-46
The bi-daily (or two-day) variation of meteorological properties is presented for an oceanographic cruise that sailed along 35°N from California to Japan during March and April, 1976. The data were sampled every two hours for 35 days. All the weather variables recorded quantitatively show a two-day periodicity including air temperature (dry- and wet-bulb), sea level pressure, wind velocity (both north and east components as well as speed and direction), total cloud amount and visibility. For pressure and velocity the amplitude of the bi-daily variation is larger than that of the diurnal signal in the same data set analyzed previously; for temperature and cloud amount the bi-daily and diurnal signals have comparable amplitudes. In addition one computed meteorological quantity, relative humidity, exhibits the two-day variation. Also all the oceanographic quantities, sampled once per two hours or oftener, show a two-day cycle: sea-surface temperature, swell height and direction, and sea direction. The bi-daily periodicity can be seen in the raw data but it is more clearly visible after the higher and lower frequencies are reduced by a simple filtering procedure. At 50°N, 145°W (Weather Ship Papa) air temperature, sea level pressure and wind velocity also show a two-day variation during the time of the cruise. Apparently there is no previous documentation of a bi-daily periodicity in meteorological or oceanographic quantities at sea level with which to compare these results. It is hypothesized that the atmosphere is partially adjusting its heat balance horizontally on a time-scale of two days, based on the correlation between air temperature and the north-wind velocity component, which is consistent with a net poleward heat flux all across the ocean. This suggests that the ultimate cause of the bi-daily variation is related to the heating and cooling set up by the sun. 相似文献
15.
Bias Correction in Wind Direction Forecasting Using the Circular-Circular Regression Method 
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下载免费PDF全文 Wind direction forecasting plays an important role in wind power prediction and air pollution management. Weather quantities such as temperature, precipitation, and wind speed are linear variables in which traditional model output statistics and bias correction methods are applied. However, wind direction is an angular variable; therefore, such traditional methods are ineffective for its evaluation. This paper proposes an effective bias correction technique for wind direction forecasting of turbine height from numerical weather prediction models, which is based on a circular-circular regression approach. The technique is applied to a 24-h forecast of 65-m wind directions observed at Yangmeishan wind farm, Yunnan Province, China, which consistently yields improvements in forecast performance parameters such as smaller absolute mean error and stronger similarity in wind rose diagram pattern. 相似文献
16.
T. Likso 《Theoretical and Applied Climatology》2006,85(3-4):217-225
Summary The possibility of estimating air temperature at 5 cm above grassland is examined using an empirical, as well as a theoretical
approach. For this purpose, hourly data (air temperature, cloudiness, air pressure and wind speed) at the Zagreb-Maksimir
Observatory (Croatia) for the period June–August 1975 have been used. A clustering procedure has been applied to form groups
of days having similar diurnal variations in air temperature difference between 5 cm and 2 m. This procedure has identified,
three groups of similar days (types). The air temperature at 5 cm above grassland has been estimated using multiple regression
and a method which is based on the Monin–Obukhov similarity theory. The results obtained are more accurate for near-neutral
stability conditions, i.e. during cloudy weather (Type 1), and the least accurate in the case of a clear sky (Type 3). Through
clustering, systematic errors have been discovered in these approaches, which are briefly discussed. 相似文献
17.
中尺度天气的高空地面综合图分析 总被引:6,自引:4,他引:2
中尺度强天气的预报能力非常有限,一个重要原因是在业务预报中,缺乏对中尺度对流天气发生的环境场条件和发生发展特征进行及时有效的分析。本文介绍了国家气象中心正在试行的中尺度天气的天气图分析方法。中尺度天气的天气图分析主要利用探空资料和数值预报相关参量资料,分析中尺度对流天气发生发展的环境场条件,包括高空综合图分析和地面分析。在高空分析中重视风、温度、湿度、变温、变高的分析,并通过将不同等压面上最能反映水汽、抬升、不稳定和垂直风切变状况的特征系统和特征线绘制在一张图上形成综合图,以更直观的方式反映产生中尺度深厚对流系统发生发展潜势的高低空配置环境场条件。地面分析包括气压、风、温度、湿度、对流天气现象和各类边界线(锋)的分析。国家气象中心的强对流天气预报业务试验表明,中尺度天气的天气图分析已经成为强对流天气潜势预报的重要依据。 相似文献
18.
利用2009年10月-2010年3月湖北省武英高速凤凰关水库自动气象站逐时路、桥面温度和常规气象资料,分析了冬季典型天空状况(晴空、阴天)和天气过程(雾、降雨、降雪)中气温、路面温度和桥面温度的变化规律。结果表明,夜间桥面温度与气温接近,比路面温度低2℃,桥面0℃以下的低温维持时间为路面维持时间的2倍左右。利用下垫面能量平衡模型,分别计算冬季夜间晴空和阴天时路、桥面辐射能量收支变化情况,分析了夜间路面和桥面温度变化差异的原因,并对桥面比路面更易结冰的现象给出了理论解释。 相似文献
19.
Daily and sub-daily weather data are often required for hydrological and environmental modeling. Various weather generator programs have been used to generate synthetic climate data where observed climate data are limited. In this study, a weather data generator, ClimGen, was evaluated for generating information on daily precipitation, temperature, and wind speed at four tropical watersheds located in Hawai??i, USA. We also evaluated different daily to sub-daily weather data disaggregation methods for precipitation, air temperature, dew point temperature, and wind speed at M??kaha watershed. The hydrologic significance values of the different disaggregation methods were evaluated using Distributed Hydrology Soil Vegetation Model. MuDRain and diurnal method performed well over uniform distribution in disaggregating daily precipitation. However, the diurnal method is more consistent if accurate estimates of hourly precipitation intensities are desired. All of the air temperature disaggregation methods performed reasonably well, but goodness-of-fit statistics were slightly better for sine curve model with 2?h lag. Cosine model performed better than random model in disaggregating daily wind speed. The largest differences in annual water balance were related to wind speed followed by precipitation and dew point temperature. Simulated hourly streamflow, evapotranspiration, and groundwater recharge were less sensitive to the method of disaggregating daily air temperature. ClimGen performed well in generating the minimum and maximum temperature and wind speed. However, for precipitation, it clearly underestimated the number of extreme rainfall events with an intensity of >100 mm/day in all four locations. ClimGen was unable to replicate the distribution of observed precipitation at three locations (Honolulu, Kahului, and Hilo). ClimGen was able to reproduce the distributions of observed minimum temperature at Kahului and wind speed at Kahului and Hilo. Although the weather data generation and disaggregation methods were concentrated in a few Hawaiian watersheds, the results presented can be used to similar mountainous location settings, as well as any specific locations aimed at furthering the site-specific performance evaluation of these tested models. 相似文献
20.
丝栗栲树干液流变化规律与环境因子影响 总被引:2,自引:0,他引:2
采用热脉冲树干液流测定仪对丝栗栲树干液流速度进行了定位观测,并用梯度自动气象站对气象和土壤等环境因子开展了同步观测,利用观测资料对丝栗栲树干液流速度的变化规律及环境因子的影响进行了分析。结果表明,丝栗栲树干液流速度的昼夜动态表现为双峰曲线。从木质部开始,随深度增加,丝栗栲液流速度也随之增大,在距形成层10 mm处的液流速度最大,随着深度再增加,液流速度又减小。回归分析还发现,丝栗栲树干液流速度相关性强的环境因子是风速、10 cm土壤温度、20 m空气温度、30 m空气温度、20 m空气相对湿度和100 cm土壤水势。其中,风速、20 m空气温度、100 cm土壤水势与液流速度呈正相关,10 cm土壤温度、30 m空气温度和20 m空气相对湿度与液流速度呈负相关。对于江西大岗山林区,由于水分充足,水分条件不是限制丝栗栲生长的主要因子,主要是受温度影响。 相似文献