青藏高原不同地区夏季近地层能量输送与微气象特征比较分析   总被引：1，自引：0，他引：1  

赵兴炳  彭斌  秦宁生  王伟 《四川气象》2011,(1):6-11

利用2009年7月在青藏高原理塘、林芝、海北、拉萨获得的气象观测资料,对比分析了这些地区近地层气象要素、辐射收支及湍流通量日变化特征。结果表明：无论是高原东部、中部还是北部,无论是高原台地还是高山峡谷区,7月份近地层各气象要素、湍流通量、辐射收支都有明显的日变化。各地区的地表辐射、感热、潜热等最高值都出现在中午,最低值出现在早晨。地表反照率日变化均呈早晚高中午低的＂U＂型分布。地面热源强度在白天均为热源,正午为强热源,在夜间表现为弱的冷、热源交替出现。7月份近地层地气热量交换中,感热输送作用小,潜热输送占主导地位。动量通量和摩擦速度均在风速较大的下午较大,风速小的早晨小。  相似文献   

青藏高原不同地区夏季近地层能量输送与微气象特征比较分析   总被引：1，自引：0，他引：1  

赵兴炳  彭斌  秦宁生  王伟 《高原山地气象研究》2011,31(1):6-11

利用2009年7月在青藏高原理塘、林芝、海北、拉萨获得的气象观测资料,对比分析了这些地区近地层气象要素、辐射收支及湍流通量日变化特征。结果表明:无论是高原东部、中部还是北部,无论是高原台地还是高山峡谷区,7月份近地层各气象要素、湍流通量、辐射收支都有明显的日变化。各地区的地表辐射、感热、潜热等最高值都出现在中午,最低值出现在早晨。地表反照率日变化均呈早晚高中午低的“U”型分布。地面热源强度在白天均为热源,正午为强热源,在夜间表现为弱的冷、热源交替出现。7月份近地层地气热量交换中,感热输送作用小,潜热输送占主导地位。动量通量和摩擦速度均在风速较大的下午较大,风速小的早晨小。   相似文献   

西太平洋热带海域西风爆发过程湍流通量输送的某些特征   总被引：12，自引：2，他引：12  

曲绍厚  王赛 《大气科学》1996,20(2):188-194

本文根据中、美、日、澳、法等近20个国家在热带海洋全球大气海气耦合响应试验强化期（1992年11月～1993年2月）定点、连续观测获得大气和海洋资料，使用考虑风速和大气层结影响的整体输送动力学公式，计算动量、感热和潜热等的湍流通量。结果表明，西风爆发过程与其他天气过程相比，无论是大气向海洋输送的动量通量，还是海洋向大气输送的感热通量和潜热通量，其值都是最大的。文中还讨论了整体输送公式中的曳力系数、感热交换系数和潜热交换系数更准确的计算方法。  相似文献   

夏季北京城市大气边界层湍流通量的塔层观测   总被引：1，自引：1，他引：0  

王新平  王琳琳  高志球  苗世光 《气候与环境研究》2008,13(5):629-638

利用2003年8月13～26日期间中国科学院大气物理研究所大气边界层气象塔47、120和280 m 3层高度上三维风速和温度脉动的观测资料,结合涡动相关方法,分析了夏季北京市城市下垫面的动量和感热等湍流通量。结果表明：3层高度上动量通量和感热通量的日变化彼此非常接近, 且3层高度上最大感热通量达到200～250 W·m-2。观测期间盛行南风,120 m高度的水平风速小于10 m·s-1。同时分析了由慢响应传感器采集的15个高度上的气温和8个高度上的相对湿度。结果表明：受地表加热影响,320 m高度上气温和相对湿度的日变化非常显著。不同高度上动量通量和感热通量的比较表明：城市下垫面的空气动力不均匀性比热力不均匀性显著。用廓线法计算了32和65 m高度之间的湍流通量,结果表明：1）夏季晴好天气情况下,北京城市下垫面能量输送以感热为主;2）由廓线法计算得到的动量通量、感热通量和由涡动相关法直接测量结果相近。此外还初步讨论了大气边界层温度、湿度垂直廓线随时间的演变。  相似文献   

青藏高原西部地表通量的年、日变化特征   总被引：14，自引：6，他引：8  

余锦华  刘晶淼  丁裕国 《高原气象》2004,23(3):353-359

利用青藏高原西部地区改则和狮泉河两个自动观测气象站1998年全年每天24个时次的风速、温度和湿度等梯度观测资料,采用湍流相似理论．计算了改则和狮泉河的动量通量、感热通量以及潜热通量。结果表明：改则和狮泉河两地的地表湍流通量都具有明显的季节变化和日变化,且其季节变化的相同点表现在感热通量均在5月份最大,1月份最小：而潜热通量均在8月份最大。不同点表现在改则的潜热通量在12月份最小,狮泉河1～5月平均潜热通量为负,以凝结为主,改则的月平均蒸发及全年的蒸发总量比狮泉河的要大。而其感热通量比后者的都小。日变化幅度随季节变化明显,表现在夏季地表通量的日变化幅度大,冬季要小得多。  相似文献   

鄱阳湖地区地表通量特征及影响因素          下载免费PDF全文

饶志娟  刘熙明  汪如良 《气象与减灾研究》2021,44(1):25-33

利用2013年7月1日—2014年6月30日鄱阳湖东岸70 m铁塔的涡动相关观测资料,统计分析了风、温度、通量足迹的分布,重点分析了湍流通量的变化及其影响因素,结果表明:1)鄱阳湖地区夏季主要以南风、西南偏南风和东南偏南风为主,冬季风向多变,主要以西北风、西北偏北风等偏北风为主.秋季风速较强,春季次之,夏季最小.通量足迹在南、北方向密集,在西南和东北方向稀疏.2)动量通量表现为夏、秋季较大,冬、春季较小.感热通量表现为秋季最大,春季次之,夏季最小;秋季整体的变化幅度都较大,夏季整体较小.潜热通量夏季最大,冬季最小;潜热通量夏季整体的变化幅度较大,冬季整体较小.3)随着下垫面粗糙度的增大,摩擦速度和动量通量显著增大.潜热通量与水的相变密切相关,来自湖面的潜热通量较大,而来自陆地的较小;感热通量与大气稳定度有关,在稳定状态时为负,在不稳定状态感热通量显著增大.  相似文献   

长白山近地层内湍流特征观测研究     

《青海气象》2016,(1)

通过分析2003年6、7、8月长白山阔叶红松林生态系统站点气象塔2.5m及40m两层每30 min间隔取得的近地层湍流通量观测资料,针对长白山湍流的统计特征量进行了研究,计算分析了各通量每月的日平均值极其变化特征。结果表明:感热、潜热通量随太阳升起逐渐增大,午后达到最大,然后降低;感热通量大于潜热通量占主导地位;动量通量白天大于晚上,最大值均出现在白天午后,夜间较小;湍流强度随高度的增加而明显下降;在日出前后有明显的变化。湍流通量和湍流动能昼夜变化明显。  相似文献   

1998年SCSMEX期间南海夏季风海气交换的主要特征   总被引：12，自引：1，他引：11  

曲绍厚  胡非  李亚秋 《气候与环境研究》2000,5(4):434-446

根据1998年“南海季风试验（SCSMEX）”强化观测期间“实验3号”和“科学1号”科学考察船船基大气海洋自动观测系统两点连续观测的大气、海洋资料,使用考虑到风速和大气层结影响的整体输送公式计算海-气间的湍流通量交换。根据计算结果分析南海夏季风期间海表大气要素和海温日均值的逐日变化、海洋向大气输送的潜热通量和感热通量以及大气向海洋输送的动量通量等。结果表明：这次夏季风于5月21日从南海南部开始爆发,然后向北部扩展全面爆发。夏季风期间南海南部和南海北部的大气、海洋结构和海气交换特征等都有明显差别。此外,海表温度的变化除了与太阳总辐射有关外,主要是与海洋向大气输送的潜热通量变化有关,对本次夏季风发生较晚、强度较弱作了海-气交换的物理解释,并与1992～1993年西太平洋热带海域西风爆发过程作了比较。  相似文献   

青藏高原东坡高原草甸近地层气象要素与能量输送季节变化分析   总被引：1，自引：0，他引：1  

赵兴炳  李跃清 《四川气象》2011,(2):12-17

本文简要介绍了青藏高原东坡理塘大气综合观测站的情况。利用该站2007~2008年观测资料,分析比较了青藏高原东坡地区高原草甸下垫面情况下近地层气象要素及能量输送的季节变化特征。结果表明：理塘地区近地层气象要素及能量输送的季节变化显著,具有明显的水热同期特点。各个季节近地层气象要素和湍流通量,如风、气温、感热通量、潜热通量等,日变化显著。风速、动量通量、摩擦速度等要素的平均日最大值和最小值分别出现在下午和日出前。比湿的峰值出现在日出前。辐射和热平衡分量的日均最大值与最小值分别出现在正午及日出前。地表热源强度分析表明,理塘白天为热源,在春夏秋三季夜间为弱的热源与冷源交替出现。在雨季,潜热输送在陆气间热量交换过程中占主导作用,感热输送是次要的;干季的结果与雨季相反,感热是首要的。  相似文献   

珠穆朗玛峰绒布河谷近地层大气湍流及能量输送特征分析   总被引：14，自引：1，他引：14       下载免费PDF全文

仲雷  马耀明  李茂善 《大气科学》2007,31(1):48-56

利用中国科学院2005年珠穆朗玛峰地区科学考察期间 (4月2日至6月7日) 收集的大气观测资料，分析了珠峰绒布河谷近地层水平风速、温度、湍流强度、湍流通量日变化及地表能量平衡特征。通过分析得出近地层三维风速方差与稳定度的关系基本满足1/3次方规律；珠峰绒布河谷近地层大气水平风速、温度、动量通量、感热通量和潜热通量均存在明显的日变化；地表获得的能量很大一部分以感热形式散失掉了，潜热所占比重很小。另外，还发现绒布河谷地区地表能量通量各分量并不满足能量平衡方程Rn=Hs+Le+G。通过对地面加热场的分析发现珠峰地表白天是强热源，晚上转变为弱冷源。  相似文献   

THE CHARACTERISTICS OF TURBULENT TRANSPORT IN THE SURFACE LAYER OVER EASTERN TIBET DURING SUMMER 1986          下载免费PDF全文

Ma Shufen 《Acta Meteorologica Sinica》1991,5(4):456-464

The turbulent fluxes for sensible and latent heat and momentum are computed and analyses are carried outabout the factors in terms of the fluxes,with the profile methods,based on the data from the Tibetan(Xi-zang)Plateau Meteorological Experiment in 1986(TIPMEX-86).It is shown that the fluxes of various kindshave evident diurnal variation,and each decade mean diurnal variation is quite different from others.Thesensible heat flux is about 2/3 less in July than in June.The results indicate that the averaged drag coefficient,C_d,and the averaged bulk transfer coefficient of sensible heat,C_h,are 0.0052 and 0.0075 respectively,for theperiod 13 to 28 in June for Nagqu.But for Lhasa,the mean C_d is 0.0056,and the mean C_h is 0.0085,for the period of June 11 to July 20.It is found that C_d and C_h are not only the function of wind velocity,but also influenced by stability conditions and wind and temperature gradients.  相似文献   

珠海凤凰山森林下垫面干季和湿季气象要素的对比分析与动量和感热交换系数的参数化研究     

刘雨佳  韦志刚  陈辰  董文杰  朱献  陈广宇  刘雅静 《气候与环境研究》2020,25(5):457-468

利用珠海凤凰山陆气相互作用观测塔站2014年11月至2016年5月的观测数据,对比分析了干湿季森林下垫面能量通量和气象要素的变化特征,分析了在不同稳定度下3个风向范围（315°～45°、45°～135°和135°～225°）的动量和感热交换系数随冠层表面风速的变化特征,并对动量和感热交换系数进行了参数化研究。结果表明:干季感热和潜热通量值相当,湿季潜热远大于感热。干季和湿季的夜晚都出现负感热现象,感热从大气向森林输送。相对湿度的变化幅度大,与该地气象状况密切相关,相对湿度的垂直梯度夜晚较大,白天较小。干季的气温垂直梯度比湿季的明显。风速在冬季变化平缓,夏季变化剧烈,低层风速随高度变化梯度明显,高层较紊乱。各高度风向差异不大。中性和近中性状态下,在风向为315°～45°、45°～135°和135°～225°时,动量交换系数C_dn分别为0.05、0.0055和0.022,感热交换系数C_hn分别为0.0055、0.003和0.004。在稳定和不稳定状态下,动量交换系数C_d、感热交换系数C_h随冠层表面风速v明显发生变化,稳定条件下,C_d、C_h随v的增大而增大;不稳定条件下,C_d、C_h随v的增大而减小。分不同风向对森林冠层C_d、C_h在稳定和不稳定条件下与v的关系进行了拟合,得到了参数化公式。  相似文献   

Spatio-temporal Variability of Surface-layer Turbulent Fluxes Over the Bay of Bengal and Arabian sea During the ICARB Field Experiment     

Denny P. Alappattu  D. Bala Subrahamanyam  P. K. Kunhikrishnan  Radhika Ramachandran  K. M. Somayaji  R. Venkatesh  G. S. Bhat  A. Bhagavath Singh 《Boundary-Layer Meteorology》2008,126(2):297-309

We report the spatio-temporal variability of surface-layer turbulent fluxes of heat, moisture and momentum over the Bay of Bengal (BoB) and the Arabian Sea (AS) during the Integrated Campaign for Aerosols, gases Radiation Budget (ICARB) field experiment. The meteorological component of ICARB conducted during March – May 2006 onboard the oceanic research vessel Sagar Kanya forms the database for the present study. The bulk transfer coefficients and the surface-layer fluxes are estimated using a modified bulk aerodynamic method, and then the spatio-temporal variability of these air-sea interface fluxes is discussed in detail. It is observed that the sensible and latent heat fluxes over the AS are marginally higher than those over the BoB, which we attribute to differences in the prevailing meteorological conditions over the two oceanic regions. The values of the wind stress, sensible and latent heat fluxes are compared with those obtained for the Indian Ocean Experiment (INDOEX) period. The variation of drag coefficient (C _D ), exchange coefficients of sensible heat and moisture (C _H = C _E ) and neutral drag coefficient (C _DN ) with wind speed is also discussed.

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A DIAGNOSTIC ANALYSIS OF THE RELATIONSHIP BETWEEN THE FLUXES AND METEOROLOGICAL ELEMENTS OVER TROPICAL WESTERN PACIFIC     

赵鸣  曾旭斌 《热带气象学报(英文版)》1999,5(2):214-224

Through the use of the hourly wind, air temperature and humidity, sea surface temperature data measured on board the observing vessel Moana Wave and buoy in the warm pool of western Pacific during the IOP of TOGA COARE, we compute the fluxes over sea surface and analyze the characteristics of the variation ofthe latent heat flux with sea surface temperature. During weak rather than strong wind periods a maximum valueof latent heat flux appears at some points of SST, which is caused mainly by the variations of wind, then by the humidity difference between air and sea and the transfer coefficient with SAT. Using correlation analysis. we also analyze the relationship between the fluxes and meteorological elements during weak wind periods. wester lywind burst periods, and convective disturbed periods etc. The main conclusions are that the latent heat flux ismainly determined by wind, sensible heat flux by the potential temperature difference between air and sea and the momentum flux by wind. The precipitation affects the sensible heat flux through the potential temperature difference and wind.  相似文献   

Measurements Of Turbulence Transfer In The Near-Surface Layer Over The Southeastern Tibetan Plateau   总被引：5，自引：0，他引：5  

Lingen Bian  Zhiqiu Gao  Qiangde Xu  Longhua Lu  Yanjie Cheng 《Boundary-Layer Meteorology》2002,102(2):281-300

Turbulent flux measurements at Qamdo site over the Tibetan Plateau during TIPEX from May 18 to June 30, 1998 are presented. Sensible heat dominated,accounting for about 66% of the available energy (the sum of net radiation and soil heat flux) prior to the monsoon(dry period), reducing to about 31%, with latent heat increased to about 56% of available energy,in the monsoon season (wet period). Surface energy budget closure on average was about 0.80 (0.85)prior to the monsoon and 0.89 (0.76) during the monsoon using eddy correlation (profile) methods. The sum of latent and sensible heat fluxes calculated from the flux-profilemethod was smaller by about 15% than that from eddy correlation. Martano's method is used toestimate the surface aerodynamic roughness length z₀ and zero plane displacement d from singlelevel sonic anemometer data, giving d = 0.12 m and z₀ = 0.08 m. The overall neutral dragcoefficient (C_DN) and scalar coefficient (C_HN) were found to be C_DN = 0.0055and C_HN = 0.0059 in the southeastern area of Tibet. Their variations with the mean wind speed at 10 m are discussed.  相似文献   

BOUNDARY LAYER STRUCTURE IN TYPHOON SAOMAI (2006): UNDERSTANDING THE EFFECTS OF EXCHANGE COEFFICIENT     

明杰  宋金杰  陈宝君  王可发 《热带气象学报(英文版)》2012,18(2):195-206

Recent studies have shown that surface fluxes and exchange coefficients are particularly important to models attempting to simulate the evolution and maintenance of hurricanes or typhoons.By using an advanced research version of the Weather Research and Forecasting(ARW)modeling system,this work aims to study the impact of modified exchange coefficient on the intensity and structures of typhoon Saomai(2006)over the western North Pacific.Numerical experiments with the modified and unmodified exchange coefficients are used to investigate the intensity and structure of the storm,especially the structures of the boundary layer within the storm.Results show that,compared to the unmodified experiment,the simulated typhoon in the modified experiment has a bigger deepening rate after 30-h and is the same as the observation in the last 12-h.The roughness is leveled off when wind speed is greater than 30 m/s.The momentum exchange coefficient(CD)and enthalpy exchange coefficient(CK)are leveled off too,and CD is decreased more than CK when wind speed is greater than 30 m/s.More sensible heat flux and less latent heat flux are produced.In the lower level,the modified experiment has slightly stronger outflow,stronger vertical gradient of equivalent potential temperature and substantially higher maximum tangential winds than the unmodified experiment has.The modified experiment generates larger wind speed and water vapor tendencies and transports more air of high equivalent potential temperature to the eyewall in the boundary layer.It induces more and strong convection in the eyewall,thereby leading to a stronger storm.  相似文献   

Turbulent exchange above a pine forest,I: Fluxes and gradients     

Ulf Högström  Hans Bergström  Ann-Sofi Smedman  Sven Halldin  Anders Lindroth 《Boundary-Layer Meteorology》1989,49(1-2):197-217

Measurements of gradients of wind, temperature and humidity and of the corresponding turbulent fluxes have been carried out over a sparse pine forest at Jädra»s in Sweden. In order to ascertain that correct gradient estimates were obtained, two independent measuring systems were employed: one system with sensors at 10 fixed levels on a 51 m tower and another with reversing sensors for temperature and humidity, covering the height interval 23 to 32 m. Turbulent fluxes were measured at three levels simultaneously. Data from three field campaigns: in June 1985, June 1987 and September 1987 have been analyzed. The momentum flux is found on the average to be virtually constant from tree top level, at 20 to 50 m. The average fluxes of sensible and latent heat are not so well behaved. The ratio of the non-dimensional gradients of wind and temperature to their corresponding values under ideal conditions (low vegetation) are both found to be small immediately above the canopy (about 0.3 for temperature and 0.4 for wind). With increasing height, the ratios increase, but the values vary substantially with wind direction. The ratios are not found to vary systematically with stability (unstable stratification only studied). The ratio of the non-dimensional humidity gradient to the corresponding non-dimensional potential temperature gradient (equivalent to k _h /k _w ) is found to be unity for (z – d)/L _v less than about –0.1 and about 1.4 for near neutral stratification, but the scatter of the data is very large.  相似文献   

高山草甸下垫面夏季近地层能量输送及微气象特征   总被引：8，自引：5，他引：3  

李跃清  刘辉志  冯健武 《大气科学》2009,33(5):1003-1014

利用青藏高原东坡理塘站2007年6～8月的观测资料, 分析了高原东坡草甸下垫面夏季近地层气象要素和湍流通量日变化特征, 并用涡动相关法估算地面的曳力系数。结果表明: 水平风速、 动量通量、 摩擦速度等均在下午最大, 早晨最小。二氧化碳浓度表现为早晚高、 中午低的日变化特征, 比湿的最大值出现在早晨。地表辐射、 热量平衡各分量最高值出现在中午, 最低值出现在早晨。地表反照率表现出早晚高中午低的 “U” 型分布, 日平均值为0.164。夏季地面热源强度在白天午后表现为强的热源, 在夜里表现为弱的冷、 热源交替出现。夏季近地层地气热量交换中, 感热输送作用小, 潜热输送占主要地位。  相似文献   

Transfer coefficients of sensible heat on a snowmelt surface     

N. Ishikawa  Y. Kodama 《Meteorology and Atmospheric Physics》1994,53(3-4):233-240

Summary Field observations were carried out in order to determine the transfer coefficeient of sensible heat flux above a melting snow surface at the Moshiri experimental site. The coefficient is calculated as the ratio of the sensible heat flux determined by the eddy correlation method using a sonic anemometer to the product of the wind speed and the temperature difference between the air and snow surface. The sensible heat fluxes are also compared with the result of the precise heat balance observations. The nondimensional transfer coefficienth shows a good correlation with the atmospheric stability,Ri. The value ofh=2.3×10^–3 is obtained in the range of 0<Ri<0.1, however, it is smaller and scattered under stronger stable condition (Ri>0.1). The dimensional transfer coefficent for sensible heat flux is calculated, and a linear relationship is obtained as a function of the logarithm of atmospheric stability.With 11 Figures  相似文献   

Estimation of atmospheric surface layer parameters and numerical simulation using MM5 at Mangalore, West Coast of India     

Anitha Kumari Hegde  R. Venkatesan  C. V. Srinivas  K. M. Balakrishna 《Meteorology and Atmospheric Physics》2010,107(3-4):161-172

Atmospheric surface layer meteorological observations obtained from 20-m-high meteorological tower at Mangalore, situated along the west coast of India are used to estimate the surface layer scaling parameters of roughness length (z _o) and drag coefficient (C _D), surface layer fluxes of sensible heat and momentum. These parameters are computed using the simple flux–profile relationships under the framework of Monin–Obukhov (M–O) similarity theory. The estimated values of z _o are higher (1.35–1.54 m) than the values reported in the literature (>0.4–0.9 m) probably due to the undulating topography surrounding the location. The magnitude of C _D is high for low wind speed (<1.5 m s^?1) and found to be in the range 0.005–0.03. The variations of sensible heat fluxes (SHF) and momentum fluxes are also discussed. Relatively high fluxes of heat and momentum are observed during typical days on 26–27 February 2004 and 10–11 April 2004 due to the daytime unstable atmospheric conditions. Stable or near neutral conditions prevail after 1700 h IST with negative SHF. A mesoscale model PSU/NCAR MM5 is run using a high-resolution (1 km) grid over the study region to examine the influence of complex topography on the surface layer parameters and the simulated fluxes are compared with estimated values. Spatial variations of the frictional velocity (u _*), C _D, surface fluxes, planetary boundary layer (PBL) height and surface winds are noticed according to the topographic variations in the simulation.  相似文献