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1.
根据国家海洋局南海分局的Marex(马瑞克斯)数据浮标观测资料、南海断面线 调查资料和西沙海洋站资料,计算了南海海气界面热量交换值。研究结果表明:不论是夏季还是秋季,在台风环流内海气界面热量交换均非常强烈,主要贡献来自潜热通量(Qv),位于(20.49°N,114.14°E)附近海域。夏季台风环流内显热通量(Qk)出现负值,海面有效反射辐射(Qe)出现减弱现象;秋冬季节台风环流内Qk量值增加显著均为正值,Qe有加强的现象。分析实测资料发现:1961~1989年8次ElNino事件过程中,西沙海洋站水温比赤道太平洋水温提早出现增暖现象的有4次,水温推迟出现增暖现象的也是4次。西沙海洋站水温增暖出现在12月的仅有1次。ElNino事件发生后,南海水温异常增暖,但是海气界面热量交换反而减弱。 相似文献
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土壤热量通量和蓄热量的计算原理与方法研究 总被引:1,自引:0,他引:1
土壤热量通量和蓄热量的计算原理与方法研究郭绍存,杜秀贤,梁秀婷(内蒙古自治区气象科研所)利用土壤热传导方程推导出的式(6),又经图解积分法再次推导而成的式(10),连同公式(7)分别是计算0─20厘米深土壤表层某时段内平均热量通量和相应时段内总蓄热量... 相似文献
3.
利用1961~2000年逐月气温资料计算了东北地区分省和全区玉米的热量指数。通过对热量指数和大气环流资料的统计分析,建立了6个预测玉米热量指数的模型,各模型都能较好地预测东北地区各省及全区的玉米生长发育期间的热量状况。检验结果可以看出,所有模型的准确率较高,且稳定性较好,6个模型预测玉米热量指数的平均相对误差都在7%以下,说明了各模型都具有较好的预测能力。其中辽宁省的相对误差最小,平均在2%以下,预测效果最好,黑龙江省的平均误差最大,也都在4.5%~7%。 相似文献
4.
根据日光温室内外土壤温度的实测资料,计算了温室内外土壤热量垂直通量的平均日变化;利用热量平衡方程探讨了温室内土壤的增温效应,为推广和应用温室蔬菜栽培技术提供科学依据。 相似文献
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人体热量平衡模型及其在人体舒适度预报中的应用 总被引:2,自引:1,他引:1
人对外界冷热的调节和舒适感,不能根据气温或其他单一的气象要素来评价.要真正全面表述环境对人体的影响必须运用人体热量平衡模型,人体热量平衡模型全面考虑了所有相关的气象要素、行为参数(活动和服装)和人体参数.运用上海有限域数值天气预报和热量平衡模型计算了体感温度,以衡量人体在环境中的热舒适状况. 相似文献
7.
青藏高原大气热量的简单计算方法及其应用 总被引:1,自引:2,他引:1
利用1961-1995年青藏高原及其邻近地区198个地面站月平均常规观测资料与青藏高原大气热量(〈Q1〉)资料,建立了一种计算青藏高原大气热量的简便方法.利用计算出的大气热量分析了各个季节青藏高原各地区〈Q1〉的气候特征,以及冬季高原〈Q1〉与春季大气环流场的关系.结果发现,各个季节高原东北部地区大气热量值都小于南部地区;高原各区大气热量在20世纪70年代到80年代初都表现出了显著的上升趋势.高原冬季热源与春季高原周围地区的位势高度场存在着明显的负相关,气候模拟证实了冬季高原地区热源变化对春季东亚大气环流的这种影响. 相似文献
8.
在热量平衡基础上,综合彭曼公式和布德科公式的计算理论,推导出一个计算可能蒸发的气候学实用方法。在郑州地区的试验计算取得了令人满意的满意。 相似文献
9.
利用气象资料数据库系统资料,通过计算机检索和计算,较全面、系统地分析了成都地区晚秋作物生长期问热量的时空分布,以及秋作播期、适宜种植区域. 相似文献
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绿洲边缘夏季小气候特征及地表辐射与能量平衡特征分析 总被引:28,自引:15,他引:13
利用“绿洲系统能量与水分循环过程观测试验”加强期(IOP)在甘肃省酒泉市金塔绿洲观测的资料,分析了夏季金塔绿洲边缘的小气候特征及地表辐射收支和地表能量平衡特征。作为绿洲沙漠相互作用的界面,在白天绿洲边缘的垂直运动仍然是以上升气流为主,并且其小气候主要受土壤湿度的影响。中午前后绿洲边缘的总辐射最大值在1000W.m-2左右,净辐射>700W.m-2;在白天,仅有个别天数的感热通量超过100W.m-2,最大值仅为150W.m-2左右。在整个观测期,有超过70%的天数出现负感热通量。而Bowen比在±10-1量级,地表能量不平衡的差额较大,约28%。 相似文献
12.
As "the third pole", the Tibetan Plateau (TP) is sensitive to climate forcing and has experienced rapid warming in recent decades. This study analyzes annual and seasonal near-surface air temperature changes on the TP in response to transient and stabilized 2.0°C/1.5°C global warming targets based on simulations of the Community Earth System Model (CESM). Elevation-dependent warming (EDW) with faster warming at higher elevations is predicted. A surface energy budget analysis is adopted to uncover the mechanisms responsible for the temperature changes. Our results indicate a clear amplified warming on the TP with positive EDW in 2.0°C/1.5°C warmer futures, especially in the cold season. Mean TP warming relative to the reference period (1961–90) is dominated by an enhanced downward longwave radiation flux, while the variations in surface albedo shape the detailed pattern of EDW. For the same global warming level, the temperature changes under transient scenarios are ~0.2°C higher than those under stabilized scenarios, and the characteristics of EDW are broadly similar for both scenarios. These differences can be primarily attributed to the combined effects of differential downward longwave radiation, cloud radiative forcing, and surface sensible and latent heat fluxes. These findings contribute to a more detailed understanding of regional climate on the TP in response to the long-term climate goals of the Paris Agreement and highlight the differences between transient and stabilized warming scenarios. 相似文献
13.
With the marine ship observation data set obtained by three cruise-phases of Chinese Xi-angyanghong 5 from November 5,1992 to February 19,1993 in the TOGA-COARE IOP at 2°S,156°E.the sea surface fluxes at this point are estimated by three different bulk schemes.Firstly.aquasi-linear relation is found between the neutral drag coefficients and wind speed.Then,the sta-bility-dependent drag and heat transfer coefficients are solved in the iterative method.Based onthus-derived transfer coefficients,the momentum,sensible and latent heat fluxes are calculated.In the warm pool region,the fluxes corresponding to the westeily winds are much greater thanthose of the easterly trade winds.The magnitude of sea surface fluxes depends upon the atmo-spheric stability as well,in particular in the case of weak wind condition.The estimated sea sur-face net heat budget shows that considerable amount of heat transport from ocean to atmosphere ismainly produced by the effective longwave radiation,latent and sensible heat fluxes.Among themthe value of latent heat flux is the largest and the sensible heat flux is the smallest.Finally,an ac-curacy analysis is made by direct measurements with the eddy-correlation method on the JapaneseR/V Hakuho board at the same time.It is shown that the bulk-derived fluxes are acceptable withmuch confidence.The estimated effective longwave radiation is used to compare with those by di-rect observations on Xiangyanghong 5.This research is compared with TOGA investigation in thetropical western Pacific. 相似文献
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利用船测资料分析一次冷空气过程中东海海域海气通量特征及海洋表面热收支变化特征。2017年5月5日20时—6日14时冷空气过境期间,动量通量平均值为0.22 N·m-2。感热和潜热通量的平均值分别为27.17 W·m-2和90.25 W·m-2,是春季整个观测期间(2017年4月20日—5月26日)平均值的2.8倍和1.1倍。冷空气爆发当天,净热通量为-12.73 W·m-2,海洋失热。白天海表面热收入58.36 W·m-2,影响海面热收支变化的主要是净辐射通量和潜热通量。夜间海表面热支出156.89 W·m-2,海洋作为热源向大气释放潜热99.79 W·m-2,占海洋释放能量过程的63.61%,向大气释放感热27.11 W·m-2,占海表释放热量的17.28%,海表面损失的热量主要以潜热的形式向大气传输。 相似文献
15.
TOGA-COAREIOP海表通量估算 总被引:3,自引:0,他引:3
使用TOGA-COAREIOP1992年11月5日至1993年2月19日向阳红5号海上船舶(2°S,156°E)观测资料,通过3种不同的总体方法估算了这个点的海表面通量。首先得出一个中性拖曳系数和风速之间的准线性关系,然后用迭代法处理依赖于稳定度的拖曳系数和输送系数,在此基础上计算了动量、感热和潜热通量。在暖池区与西风相对应的通量远大于东信风相对应的通量,海表通量的量值也依赖于稳定度,特别是在弱风条件下。估算的海表净热量平衡表明从海洋向大气大量的热输送主要是由潜热通量和有效长波辐射产生的。其中潜热通量的数值最大、感热通量数值最小。最后和同期日本R/VHakuho考察船(0°,156°E)用涡动相关法得到的直接测量通量比较,作了精确度分析,表明用总体方法估算的通量是可靠的。并用向阳红5号船的资料估算的有效长波辐射和直接测量值作了比较,也和热带西太平洋TOGA调查作了比较分析。 相似文献
16.
Evaluation of Mediterranean Sea water and heat budgets simulated by an ensemble of high resolution regional climate models 总被引:2,自引:2,他引:0
E. Sanchez-Gomez S. Somot S. A. Josey C. Dubois N. Elguindi M. Déqué 《Climate Dynamics》2011,37(9-10):2067-2086
Air-sea heat and freshwater water fluxes in the Mediterranean Sea play a crucial role in dense water formation. Here, we compare estimates of Mediterranean Sea heat and water budgets from a range of observational datasets and discuss the main differences between them. Taking into account the closure hypothesis at the Gibraltar Strait, we have built several observational estimates of water and heat budgets by combination of their different observational components. We provide then three estimates for water budget and one for heat budget that satisfy the closure hypothesis. We then use these observational estimates to assess the ability of an ensemble of ERA40-driven high resolution (25 km) Regional Climate Models (RCMs) from the FP6-EU ENSEMBLES database, to simulate the various components, and net values, of the water and heat budgets. Most of the RCM Mediterranean basin means are within the range spanned by the observational estimates of the different budget components, though in some cases the RCMs have a tendency to overestimate the latent heat flux (or evaporation) with respect to observations. The RCMs do not show significant improvements of the total water budget estimates comparing to ERA40. Moreover, given the large spread found in observational estimates of precipitation over the sea, it is difficult to draw conclusions on the performance of RCM for the freshwater budget and this underlines the need for better precipitation observations. The original ERA40 value for the basin mean net heat flux is ?15 W/m2 which is 10 W/m2 less than the value of ?5 W/m2 inferred from the transport measurements at Gibraltar Strait. The ensemble of heat budget values estimated from the models show that most of RCMs do not achieve heat budget closure. However, the ensemble mean value for the net heat flux is ?7 ± 21 W/m2, which is close to the Gibraltar value, although the spread between the RCMs is large. Since the RCMs are forced by the same boundary conditions (ERA40 and sea surface temperatures) and have the same horizontal resolution and spatial domain, the reason for the large spread must reside in the physical parameterizations. To conclude, improvements are urgently required to physical parameterizations in state-of-the-art regional climate models, to reduce the large spread found in our analysis and to obtain better water and heat budget estimates over the Mediterranean Sea. 相似文献
17.
Edgar L Andreas James B. Edson Edward C. Monahan Mathieu P. Rouault Stuart D. Smith 《Boundary-Layer Meteorology》1995,72(1-2):3-52
The part that sea spray plays in the air-sea transfer of heat and moisture has been a controversial question for the last two decades. With general circulation models (GCMs) suggesting that perturbations in the Earth's surface heat budget of only a few W m–2 can initiate major climatic variations, it is crucial that we identify and quantify all the terms in that heat budget. Thus, here we review recent work on how sea spray contributes to the sea surface heat and moisture budgets. In the presence of spray, the near-surface atmosphere is characterized by a droplet evaporation layer (DEL) with a height that scales with the significant-wave amplitude. The majority of spray transfer processes occur within this layer. As a result, the DEL is cooler and more moist than the atmospheric surface layer would be under identical conditions but without the spray. Also, because the spray in the DEL provides elevated sources and sinks for heat and moisture, the vertical heat fluxes are no longer constant with height. We use Eulerian and Lagrangian models and a simple analytical model to study the processes important in spray droplet dispersion and evaporation within this DEL. These models all point to the conclusion that, in high winds (above about 15 m/s), sea spray begins to contribute significantly to the air-sea fluxes of heat and moisture. For example, we estimate that, in a 20-m/s wind, with an air temperature of 20°C, a sea surface temperature of 22°C, and a relative humidity of 80%, the latent and sensible heat fluxes resulting from the spray alone will have magnitudes of order 150 and 15 W/m2, respectively, in the DEL. Finally, we speculate on what fraction of these fluxes rise out of the DEL and, thus, become available to the entire marine boundary layer. 相似文献
18.
本文评估了中国科学院大气物理研究所大气科学和地球流体力学数值模拟国家重点实验室(LASG/IAP)研发的全球气候系统模式(FGOALS)的4个版本(FGOALS-g2、s2、g3、f3-L)对赤道太平洋地区的海温、降水气候态和季节循环的模拟能力。本文从海气耦合机制和热量收支的角度对耦合模式结果和相应的大气模式比较计划试验(AMIP)进行了对比分析,探讨了造成这一地区海温和降水模拟偏差的原因。结果显示,上一代模式g2和s2的海表温度均方根误差大于2°C,新一代模式g3和f3-L模拟的均方根误差降低50%,为1°C左右。因为新版本中赤道太平洋地区的净短波辐射平均态误差的减小,海洋上层热量动力输送过程的改善和净短波辐射与海温回归关系改进,赤道太平洋地区海温的平均态,南北温度和降水的不对称性都更加接近观测。f3-L比g3在上述方面改进更多,海温也更加合理。但是新一代版本模拟的降水均没有显著改进,赤道北侧ITCZ的降水偏大4 mm d?1。对流降水带来的凝结潜热释放加强了南北非绝热加热梯度,越赤道南风偏差抵消了一部分因为短波辐射偏大带来的海温偏暖,这说明海温平均态的改善是模拟误差相互抵消的结果。在季节循环的模拟方面也存在类似的现象,f3-L和g3中的海温年循环有所改进但较观测振幅仍旧偏弱。这是因为f3-L和g3模拟的经向风和潜热的年循环振幅比前版本要偏强,误差加大的同时也更大地抵消短波辐射的年循环偏差。g2和s2模拟的海温在赤道东太平洋则存在一个虚假半年循环分量,这主要是由潜热通量半年循环偏差所引起的。 相似文献
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通过中亚费尔干纳盆地2007~2011年气候的模拟试验,揭示了新增农田灌溉过程与更新土壤参数对WRF(Weather Research and Forecasting)/Noah模式模拟精度的提升作用。通过对比标准版本与嵌入灌溉过程参数化方案后的WRF/Noah模式的模拟结果,研究发现农业灌溉提升了土壤含水量,导致地表蒸发增强,潜热增加,感热减少,致使近地层大气降温、增湿,这一效应降低了WRF/Noah模拟的暖、干偏差,模拟2 m气温和大气比湿均方根误差分别由6.52°C降低至5.81°C,由1.66 g/kg降低至1.13 g/kg。进而针对WRF默认配置的费尔干纳盆地内土壤数据精度欠佳的问题,再利用国际土壤参比与信息中心(ISRIC)数据(主要是粉砂粘壤土和粉砂壤土)替换了WRF默认的数据(主要是粘土和壤土),降低了土壤凋萎系数,使得有效土壤水增多,缩小了灌溉需水量的模拟误差,并使得蒸散发进一步增强,潜热增多,感热减少,导致近地层降温、增湿,进一步降低了WRF/Noah模拟的暖、干偏差,模拟温度、湿度的均方根误差分别由5.81°C降低至5.46°C,由1.13 g/kg降低至1.08 g/kg。上述结果表明:充分农业灌溉对陆面过程产生影响,以及采用高精度的土壤数据能够显著提高WRF/Noah模式在中亚费尔干纳盆地的模拟精度。 相似文献
20.
Three-year Variations of Water, Energy and CO$_2$ Fluxes of Cropland and Degraded Grassland Surfaces in a Semi-arid Area of Northeastern China 总被引:1,自引:0,他引:1
Based on 3 years (2003-05) of the eddy covariance (EC) observations on degraded grassland and cropland surfaces in a semi-arid area of Tongyu (44°25′N, 122°52′E, 184 m a.s.1.), Northeast China, seasonal and annual variations of water, energy and CO2 fluxes have been investigated. The soil moisture in the thin soil layer (at 0.05, 0.10 and 0.20 m) clearly indicates the pronounced annual wet-dry cycle; the annual cycle is divided into the wet (growing season) and dry seasons (non-growing season). During the growing season (from May to September), the sensible and latent heat fluxes showed a linear dependence on the global solar radiation. However, in the non-growing season, the latent heat flux was always less than 50 W m^-2, while the available energy was dissipated as sensible, rather than latent heat flux. During the growing season in 2003-05, the daily average sensible and latent heat fluxes were larger on the cropland surface than on the degraded grassland surface. The cropland ecosystem absorbed more CO2 than the degraded grassland ecosystem in the growing season in 2003-05. The total evapotranspiration on the cropland was more than the total precipitation, while the total evapotranspiration on the degraded grassland was almost the same as the total annual precipitation in the growing season. The soil moisture had a good correlation with the rainfall in the growing season. Precipitation in the growing season is an important factor on the water and carbon budget in the semi-arid area. 相似文献