一次引发暴雨的东北低涡的涡度和水汽收支分析   总被引：11，自引：0，他引：11  

乔枫雪  赵思雄  孙建华 《气候与环境研究》2007,12(3):397-412

对2005年7月25～29日引发较大范围持续性暴雨的东北低涡的结构、涡度和水汽收支进行了分析研究,结果表明:1)东北低涡是一个较深厚的冷性涡旋.初期,气旋性涡度出现在对流层中层,然后向中低层及高层伸展.而低涡加强阶段,气旋性涡度在对流层高层增加得最快,并逐渐向中低层传播,诱发地面气旋的发展;由于高低空锋生的相互作用,在低涡南部形成了深厚的近乎垂直的低层略前倾的"弓形"锋区.2)对涡度收支的计算表明,水平涡度平流项和水平辐散项对低涡的发展、加强起到最主要的作用.但在不同阶段,这两项的作用和大小各不相同.3) 对流层高层位涡大值区在低涡东部向下传播,有利于低涡的发展加强,与低涡暴雨的落区位置较为接近.此外对卫星云顶亮度温度(TBB)的分析,发现低涡暴雨典型的涡旋云带中对流活动旺盛的地区与局地暴雨的位置对应.4) 低涡暴雨的水汽初期主要来自北部,随着低纬地区西南季风的增强,沿副高西侧从低纬到中高纬建立起一条较强的水汽输送带,东北地区水汽收支以南北向的辐合为主.5)将2005年和1998年夏季6～8月的东北低涡暴雨个例的天气形势配置进行逐月比较,发现持续的较大范围的低涡暴雨过程与亚洲中高纬的阻塞形势、低涡的维持、西太平洋副热带高压的位置及夏季风和低纬系统的水汽输送有密切的关系.  相似文献   

我国华北地区春季降水的年代际变化特征及其可能成因的探讨   总被引：10，自引：1，他引：9  

周连童  黄荣辉 《气候与环境研究》2006,11(4):441-450

利用我国160个台站1951~2000年逐月和华北地区80个台站逐日降水观测资料,分析了我国,特别是华北地区春季降水的年代际变化特征。分析结果表明:华北地区春季降水具有明显的年代际变化,1951~1965年华北地区春季降水略偏少,1966~1976年华北地区春季降水更加偏少,春旱较严重,1977~2000年为华北春季降水明显偏多,这时期5~6月降水比1966~1976年有明显增多;并且,分析结果也表明了华北地区和黄河流域春季降水存在着与夏季降水相反的年代际变化特征。另外,作者还利用欧洲中心ERA40资料集的1958~2000年月平均700 hPa风场再分析资料,分析了东亚上空春季700 hPa风场的年代际异常情况,从而来探讨华北地区春季降水年代际变化的成因。其分析结果表明:1965年以前,蒙古高原上空存在着明显的反气旋距平环流,我国华北地区有偏北风距平,这使得我国华北地区在1965年以前春季降水偏少;1966~1976年,我国华北地区仍为偏北风距平,且我国东部沿海到南海上空的偏北风距平增强,这使得华北地区春季降水进一步减少;1977~2000年,东亚上空700 hPa环流场发生了一个明显的变化,华北地区出现偏南风距平,且我国东部沿海到南海上空的偏南风距平增强,这使得我国南方暖湿气流易输送到华北地区,从而造成我国华北地区春季降水增加。  相似文献   

20世纪长江流域3次全流域灾害性洪水事件的气象成因分析   总被引：10，自引：1，他引：9  

张小玲  陶诗言  卫捷 《气候与环境研究》2006,11(6):669-682

20世纪长江流域曾出现上游洪水7次,中游洪水16次,下游洪水7次,其中有3次是全流域性洪水,分别发生在1998、1954和1931年。1998、1954和1931年梅雨期开始前(3~5月),长江流域降水比常年偏多。进入梅雨季以后,先后出现两场持续性暴雨:第1场出现在6月中旬至7月上旬,这场暴雨造成中下游河流的水位达到或超过警戒水位,出现局地洪涝;7月下旬长江中下游又出现1场持续性范围广的暴雨,雨水只能作为地面径流汇集到长江干流,造成很高水位的洪流。第2场持续性暴雨使长江上下游强降水时段在7月下旬重合,导致长江中下游干流洪水与来自上游的洪水在8月初至中旬遭遇,造成长江中下游灾难性的大洪水。1998、1954和1931年长江全流域性大洪水与东亚中高纬地区大气环流和东亚夏季风活动异常有联系。大气环流和东亚季风活动异常导致7月下旬西太平洋副热带高压的位置偏南,梅雨期持续到7月底,有利于长江中下游持续性暴雨发生的环流条件在7月下旬仍然存在。  相似文献   

热带气旋"蒲公英"两次登陆过程的灾害与结构特征   总被引：4，自引：0，他引：4  

齐琳琳  孙建华  连樱  马环宇 《气候与环境研究》2006,11(4):499-513

2004年7月1~3日,热带气旋“蒲公英”自生成到影响浙江沿海地区期间,不仅持续时间长、强度大,移动路径长、变化较复杂,而且创下了近3年来台湾风灾损失的最高纪录,同时也给浙江等沿海地区造成了一定的经济损失。作者主要利用卫星云图资料、NCEP再分析资料,从宏观上对热带气旋“蒲公英”两次登陆过程中的强度及其引发的风雨灾害进行了分析。结果表明,“蒲公英”登陆台湾期间,东亚环流形势呈典型的鞍形场分布,有利于处于两高之间热带气旋“蒲公英”的维持和北上转向。而在其登陆浙江沿海地区后,浙江沿海地区处于较强的偏东气流中,“蒲公英”中心处于高空槽后,气流下沉以及缺少水汽和能量充沛供应使得其减弱为热带风暴。无论是其登陆台湾还是浙江沿海地区,台风垂直方向始终呈深厚气旋性涡柱结构,但中心附近低层辐散,中层辐合,不利于中心附近的对流发展。相反,台风外围螺旋云带内不仅中低层辐合,高层辐散,辐合层较深厚,且存在高湿和强上升运动,因而有利于对流云团的发展。对流云团发展强度的不同使得“蒲公英”两次登陆期间引发的风雨灾害明显不同。  相似文献   

剪切型多自由度体系瞬时输入能量的分布     

胡冗冗  王亚勇 《世界地震工程》2006,22(4):140-144

通过对剪切型多自由度体系的地震能量反应分析,提出了描述多自由度体系整体脉冲能量反应的参数,瞬时输入能量等效平均速度,并在此基础上建立了瞬时输入能量分布系数的概念,提出了估计瞬时输入能量分布的方法。  相似文献   

The Impact of Moist Physics on the Sensitive Area Identification for Heavy Rainfall Associated Weather Systems     

Huizhen YU  Zhiyong MENG 《大气科学进展》2022,39(5):684-696

The impact of moist physics on the sensitive areas identified by conditional nonlinear optimal perturbation(CNOP)is examined based on four typical heavy rainfall cases in northern China through performing numerical experiments with and without moist physics.Results show that the CNOP with moist physics identifies sensitive areas corresponding to both the lower-(850?700 hPa)and upper-level(300?100 hPa)weather systems,while the CNOP without moist physics fails to capture the sensitive areas at lower levels.The reasons for the CNOP peaking at different levels can be explained in both algorithm and physics aspects.Firstly,the gradient of the cost function with respect to initial perturbations peaks at the upper level without moist physics which results in the upper-level peak of the CNOP,while it peaks at both the upper and lower levels with moist physics which results in both the upper-and lower-level peaks of the CNOP.Secondly,the upper-level sensitive area is associated with high baroclinicity,and these dynamic features can be captured by both CNOPs with and without moist physics.The lower-level sensitive area is associated with moist processes,and this thermodynamic feature can be captured only by the CNOP with moist physics.This result demonstrates the important contribution of the initial error of lower-level systems that are related to water vapor transportation to the forecast error of heavy rainfall associated weather systems,which could be an important reference for heavy rainfall observation targeting.  相似文献   

The Antarctic Impulsive Transient Antenna ultra-high energy neutrino detector: Design, performance, and sensitivity for the 2006–2007 balloon flight     

《Astroparticle Physics》2009,32(1):10-41

We present a comprehensive report on the experimental details of the Antarctic Impulsive Transient Antenna (ANITA) long-duration balloon payload, including the design philosophy and realization, physics simulations, performance of the instrument during its first Antarctic flight completed in January of 2007, and expectations for the limiting neutrino detection sensitivity.  相似文献   

Grinding of mineral mixtures in high-pressure grinding rolls     

Abdel-Zaher M. Abouzeid  Douglas W. Fuerstenau 《International Journal of Mineral Processing》2009,93(1):59-65

Attempts at improving comminution machines generally have been directed towards increasing the performance efficiency, particularly increasing throughput rate and decreasing energy consumption. The latest and most successful new comminution technology has been the high-pressure grinding rolls (HPGR), which have proved to be highly efficient in energy consumption and to have a relatively high throughput rate at low steel consumption. Already used extensively in cement plants worldwide, the first HPGRs in the mineral industry were installed in plants processing diamond ores. They are now finding their way into the large-scale base-metal mining industry. Since feed constituents in natural ores vary in their physical properties such as hardness, plasticity and brittleness, the present paper is concerned with an investigation of the behavior of a heterogeneous feed as it passes through the HPGR. The effect of feed composition on operational parameters, the energy efficiency of comminution, and energy distribution among the feed components is addressed. Mineral particles with high hardness act as energy transfer agents in the roll gap and enhance the grinding of softer mineral particles in a mixed feed.  相似文献   

Analytical solution to 1D coupled water infiltration and deformation in unsaturated soils   总被引：1，自引：0，他引：1  

L. Z. Wu  L. M. Zhang 《国际地质力学数值与分析法杂志》2009,33(6):773-790

An analytical solution to 1D coupled water infiltration and deformation is derived using a Fourier integral transform. Exponential functional forms are used to represent the hydraulic conductivity–pore‐water pressure relationship and the soil‐water characteristic curve. Fredlund's incremental‐linear constitutive model for unsaturated soils is adopted. The analytical solution considers arbitrary initial pore‐water pressure distributions and flux and pressure boundary conditions. The corresponding analytical solutions to coupled steady‐state problems are also obtained. The analytical solutions demonstrate that the coupling of seepage and deformation plays an important role in water infiltration in unsaturated soils. In the early stages of infiltration, the difference between uncoupled and coupled conditions becomes marked over time, and in late stages, the difference caused by the coupling effects diminishes toward the steady state. The difference between the uncoupled and coupled conditions increases with decreasing desaturation coefficient (α). Pore‐water pressure or deformation changes caused by the coupling effects are mainly controlled by the degree of soil volume change due to a change in soil suction (H). The smaller the absolute value of H, the greater the effect of coupling on the infiltration and deformation. The ratio of rainfall intensity to saturated permeability (q/k_s) also has a strong influence on the coupled seepage and deformation. Copyright © 2008 John Wiley & Sons, Ltd.  相似文献   

Theoretical Derivation of a Peak Particle Velocity–Distance Law for the Prediction of Vibrations from Blasting     

Luigi Sambuelli 《Rock Mechanics and Rock Engineering》2009,42(3):547-556

I would like to suggest a theoretical justification for the mathematical structure of some laws for predicting the maximum particle velocity vibration from blasting operations in the light of some basic notions of elastic and anelastic wave theory. Within this point of view, in dimensionally correct expressions, the terms pertaining to the rock, to the blast and to the seismic wave become evident and recognisable. A law is presented that can be used to forecast the maximum particle velocity on the basis of some blast design and rock parameters. Four tests of the proposed law performed with real data sets seem to confirm fairly well its reliability.  相似文献