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61.
青藏高原北侧地区干湿年夏季垂直环流差异的对比分析及青藏高原的热力影响 总被引:30,自引:2,他引:30
为了分析西北干旱的形成原因,本文首先利用高原北侧地区5站历年夏季的降水量资料等,制定了该区的干湿标准,划分了历年夏季的干湿等级。接着又利用ECMWF的格点资料等对比分析了该区干湿年夏季间垂直环流的差异,也探讨了青藏高原地面热状况与高原北侧干湿状况的联系。其主要结论是:1)文中制定的以降水标准差为判据的干湿标准适合西北干旱区;2)高原北侧干湿年夏季间在高原北侧和高原上的垂直环流存在明显差异;3)青藏高原地面热状况与上列差异有关,也即青藏高原的热力作用是西北干旱的重要成因之一。 相似文献
62.
使用一枚携带chaff的火箭观测到的垂直速度数据,研究中层大气垂直速度扰动细微结构。结果表明,垂直速度扰动有明显的层状结构,各层厚度约150-500m,层间垂直分离距离在几百米到1-3km间。在垂直速度方差和低Ri数峰值间以及动力不稳定和MST雷达回波区域间有好的对应关系。水平速度垂直波数谱与饱和谱在谱斜率和谱振幅上存在好的一致.这些观测结果表明,火箭测量到的细微结构可以用波场饱和解释。 相似文献
63.
本文介绍了葛洲坝垂直位移遥控监测系统的工作原理、结构、电路设计特点及实际使用效果。几年的实测结果证明了此系统量测精度高、稳定性好、自动化程度高,实现了联机实时自动监测大坝垂直位移的目标。 相似文献
64.
近20年来河西-祁连山东部地区三条规模较大的北东向构造带在区域垂直形变图上反映明显。因受区域应力场强度的控制,其垂直形变表现出随时间波浪状演化式。区域垂直形变图像与莫霍面等深线相似,说明这几条北东向构造带的深部成因机制。它们对区内的中强地震起着很强的控制作用,与北西西及北北西向断裂构造共同构成了本区的控震构造网络。 相似文献
65.
通过分析发现地形坐标系中气压梯度力差分格式的计算误差应分为二类,其中,第二类误差在水平坐标面倾斜时出现。这种误差可理解为将水平坐标面上的气压(或位势高度)插回到等高面(或等压面)上的插值误差。 构造气压梯度力差分格式的目的正是为了减小这种第二类误差,而不是其他误差。 误差分析表明静力扣除法和Corby 格式的第二类误差都很小,比一般方法的误差小约一个量级。分析还表明第二类误差产生的主要原因是由于气压随高度非线性变化。依据这一分析思路,本文改进了#As(z)#a坐标系中的静力扣除法。 改进后的方法比改进前的误差小约一个量级。 相似文献
66.
利用ERA-Interim 1979—2018年6—8月的再分析资料,通过相关分析、信息流、合成分析等方法研究了南亚高压强度与其邻近地区垂直速度的相互依赖关系.结果表明:南亚高压在上对流层-下平流层区域具有上冷下暖的热力结构,冷、暖中心分别在70 hPa和250 hPa,以这两层的温度异常建立的温差指数可以反映南亚高压的强度.在不同时间尺度上,南亚高压强度与其邻近地区垂直速度的相互依赖关系是不同的.在月时间尺度上,南亚高压强度通过动力作用影响邻近地区的垂直速度,南亚高压增强(减弱)时,其东部地区的上升运动和西部地区的下沉运动同步增强(减弱);在日时间尺度上,南亚高压中部的垂直速度通过热力强迫影响南亚高压强度,南亚高压中部地区上升运动增强(减弱)时,南亚高压增强(减弱)且位置偏西(偏东). 相似文献
67.
Estimation of abl Parameters Using the Vertical Velocity Measurements of an Acoustic Sounder 总被引:2,自引:0,他引:2
J. A. Kalogiros C. G. Helmis D. N. Asimakopoulos P. G. Papageorgas 《Boundary-Layer Meteorology》1999,91(3):413-449
The friction velocity, the surface heat flux and the height of the Atmospheric Boundary Layer (ABL) are important parameters. In this work, vertical velocity variance (
w
2
) and wind velocity structure parameter (C
v
2
) profiles estimated by acoustic sounder measurements are used, along with similarity relations, to estimate these parameters in the unstable Atmospheric Boundary Layer and the friction velocity in the stable one. The data were collected by two acoustic sounders with different height range and resolution under various atmospheric conditions (stability) and at two experimental sites in different terrain. The C
v
2
profiles are estimated using gate difference of the vertical velocity measurements and the assumption of local isotropy. The vertical velocity data are corrected for the significant effects of noisy measurements and sampling volume averaging on the
w
2
and C
v
2
estimations using original techniques that are presented in this work. The results of the similarity method using acoustic sounder data are compared against estimates of the corresponding atmospheric parameters obtained from direct measurements. The comparison confirms the ability of the method to provide reasonably accurate estimates of these parameters especially in the middle of the day. 相似文献
68.
The structure of the marine atmospheric boundarylayer and the validity ofMonin–Obukhov similarity theory over the seahave been investigated using longterm measurements. Three levels of turbulencemeasurements (at 10 m, 18 mand 26 m) at Östergarnsholm in themiddle of the Baltic Sea have beenanalysed. The results show that turbulentparameters have a strong dependenceon the actual height due to wave influence.The wind profile and thus thenormalised wind gradient are very sensitiveto wave state. The lower part of theboundary layer can be divided into three heightlayers, a wave influenced layerclose to the surface, a transition layer andan undisturbed ordinary surfacelayer; the depth of the layers is determinedby the wave state. This heightstructure can, however, not be found for thenormalised dissipation, which is onlya function of the stability, except duringpronounced swell where the actualheight also has to be accounted for. Theresults have implications for the heightvariation of the turbulent kinetic energy(TKE) budget. Thus, the imbalancebetween production and dissipation willalso vary with height according to thevariation of wave state. This, in turn,will of course have strong implicationsfor the inertial dissipation method, inwhich a parameterisation of the TKEbudget is used. 相似文献
69.
This study investigates the interaction of the vertical velocity v and the streamwise velocity u in a gradually accelerating flow. The analytical result shows that the momentum of uv driven by the mean velocities in a non-uniform flow is not negligible. This additional momentum directly results in the concave profiles of Reynolds shear stress in gradually accelerating flows, a departure from the expected linear profile. Consequently, this momentum causes the maximum velocity to be located below the free surface, i.e., the dip-phenomenon. This paper investigated the interactions of the Reynolds shear stress, non-zero vertical velocity and dip-phenomenon, it is found that the non-zero vertical velocity causes the dip-phenomenon. The approach is tested using the experimental data of Song and others, and good agreements between the predicted and measured velocity profiles have been achieved. 相似文献
70.
Low-frequency current fluctuations in the deep central equatorial Atlantic are analyzed using current meter measurements recorded
from November 1992 to November 1994. Current meters were located at about 14°W of longitude and 1° of latitude on both sides
of the equator between 1,700 m depth and the ocean bottom. At all sampling depths, the velocity fluctuations are dominantly
zonal and symmetrical with respect to the equator. At 1,700 and 2,000 m, the flow is dominated by annual period fluctuations,
at 3,000 m, the velocity field amplitude presents a minimum, and at 3,750 and 3,950 m, the flow is modulated by annual and
semiannual period variability. The annual signal exhibits an apparent upward phase propagation. When considering the phase
and the amplitude of the seasonal fluctuations, the data compare well with the outputs of a realistic numerical simulation
of the Atlantic Ocean. Together with a previous analysis of the model simulations, this supports the idea that the observed
annual fluctuations are due to wind-forced vertically propagating Kelvin and Rossby waves. Data and model do not provide deciding
evidences of the presence of semiannual equatorial waves deeper than 3,500 m depth in the central equatorial Atlantic Ocean. 相似文献