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将Level Set方法与ICE数值格式相结合,建立了求解含有运动界面的不可压缩气液两相流动问题的三维模型及数值解法。应用所建立的模型和算法三维模拟了4种典型气泡和液滴的运动过程,包括气泡从单个喷嘴生成和上升的过程,两个大小不同的空气气泡在水中自由上升时的相互作用过程,水滴下落冲击水面的过程和水滴与颗粒正向等温碰撞过程。模拟结果表明,所建立的模型与算法能准确方便地捕捉到三维气泡和液滴界面的破碎与融合等拓扑结构的变化,说明Level Set方法是一种行之有效且大有前途的处理气液运动界面问题的方法。 相似文献
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交叉裂隙作为裂隙网络的基本结构是控制场地尺度非饱和渗流特性的关键。随着流量的减小,交叉裂隙非饱和渗流将从连续、稳定的线状流转变为非连续、非稳定的滴状流,但目前对后者的研究还很少。在滴状流条件下,开展了交叉裂隙非饱和流动特性的理论和试验研究,发现了交叉裂隙滴状流存在毛细力驱动以及重力与毛细力联合驱动两种分流驱动模式。基于瞬态静力平衡方法,提出了一套液滴分流理论及计算模型,实现了动态分流过程的定量化描述与预测。结合模型预测与可视化试验,详细探究了两种模式下液滴的分流过程,阐明了动态分流行为受重力、毛细力、黏滞力共同控制的细观机制,并揭示了液滴长度、裂隙倾角、通道中液体的累积等因素对界面流速、分流体积比例的影响。研究成果为低流量、低饱和度条件下非饱和裂隙岩体渗流的预测与控制提供了理论及试验支撑。 相似文献
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Sensitivities of tornadogenesis to drop size distribution in a simulated subtropical supercell over eastern China 总被引:2,自引:0,他引:2
ABSTRACT Numerical simulations with the Advanced Regional Prediction System (ARPS) model were performed to investigate the impact of microphysical drop size distribution (DSD) on tornadogenesis in a subtropical supercell thunderstorm over Anhui Province, eastern China. Sensitivity experiments with different intercept parameters of rain, hail and snow DSDs in a Lin-type microphysics scheme were conducted. Results showed that rain and hail DSDs have a significant impact on the simulated storm both microphysically and dynamically. DSDs characterized by larger (smaller) intercepts have a smaller (larger) particle size and a lower (higher) mass-weighted mean fall velocity, and produce relatively stronger (weaker) and wider (narrower) cold pools through enhanced (reduced) rain evaporation and hail melting processes, which are then less favorable (favorable) for tornadogenesis. However, tornadogenesis will also be suppressed by the weakened mid-level mesocyclone when the cold pool is too weak. When compared to a U.S. Great Plain case, the two microphysical processes are more sensitive to DSD variations in the present case with a higher melting level and deeper warm layer. This suggests that DSD-related cloud microphysics has a stronger influence on tornadogenesis in supercells over the subtropics than the U.S. Great Plains. 相似文献
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Analysis of the characteristics of snow drop size distribution in the Qilian Mountains 总被引:1,自引:0,他引:1
Under the Watershed Allied Telemetry Experimental Research (WATER) project, a significant amount of snow size data was collected from March to April 2008. However, because of limited observation data for the Qinghai-Tibet Plateau, the modeling behavior was not satisfactory. This paper demonstrates characteristics of the snow drop size distribution (SSD) in this region. The experimental area is located in the northeastern part of the Qinghai-Tibet Plateau. The Heihe River Basin, which is the second largest interior river basin in China and is located on the northern slopes of the Qilian Mountains, was selected as the simulation region. This basin ranges from approximately 5,000 m to 1,000 m in elevation. A new generation Parsivel disdrometer, the OTT Parsivel, was used for measurements. Four data sets were compiled to determine the average distributions for four different snowfall rates. The characteristics of the snow particle size distribution in the mountainous area were analyzed. Similar to the raindrop distribution, there was a multi-peak structure. Most peaks appear in the D 2 mm region (D: diameter of the snow drop size). An M-P distribution and a Г distribution were developed based on the precipitation data observed in Qilian mountainous area. We found that the Г distribution has a better fit than the M-P distribution for the actual distribution. In addition, we observed that the intercept parameter (N0) and the slope parameter (Λ) correlate well with the shape parameter (μ). The disdrometer data can also be used to model the reflectivity factor (ZH) and differential reflectivity factor (ZDR). The radar reflectivity (ZHH, ZVV) and differential reflectivity (ZDR) were modeled in order to facilitate understanding of the connections between radar and ground measurements, and were used to support work for the improvement of rainfall estimates by polarimetric radar. Rain rate estimation using radar measurements was based on empirical models, such as the Z-R relationship and R(ZH, ZDR) in the Qilian mountainous areas. The relationship of R=0.017×100.079×ZH-0.022×ZDR is better than R=0.019×100.078×ZH for estimating R (melted snow). The normalized errors (NE) of R(ZH) and R(ZH, ZDR) are 13.22% and 5.20%, respectively. 相似文献
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路基冻胀问题严重影响寒区高速铁路的安全服役,而成冰相变过程是解释冻胀机制的关键。基于介观尺度的格子Boltzmann方法,将修正的孔隙水冻结温度算法与焓法固液相变格子Boltzmann模型相结合,模拟了悬浮液滴冻结和冻土孔隙水成冰两个过程,分别揭示了液态水在自由状态和孔隙束缚状态下冰水相变的细观机制。计算结果表明:土体孔隙中冰晶由中心向外生长的过程与悬浮在空气中的液滴冻结过程截然不同,并且孔隙水越接近颗粒表面,其冻结温度越低。相同粒径颗粒按照不同排列方式得到的冻结特征曲线(soil freezing characteristic curves,简称SFCC)具有明显差异;不同粒径的SFCC随着颗粒增大残余水含量逐渐变少,形态更加陡峭。通过与文献试验结果对比,验证了格子Boltzmann方法的有效性,表明该方法能够为研究多孔介质水气迁移与相变过程提供介观尺度的新手段。 相似文献
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用液滴催化暖云降水,达到“以小得大”的降水目的,结果指出:液滴催化暖云降水的最佳播撒高度和最佳播撒效率受到云中垂直气流速度(w),云含水量(Q),云滴半径(r)和云层厚度(△H)的制约。 相似文献
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Examination of Microphysical Relationships and Corresponding Microphysical Processes in Warm Fogs 总被引:1,自引:0,他引:1
LU Chunsong LIU Yangang NIU Shengjie ZHAO Lijuan YU Huaying CHENG Muning 《Acta Meteorologica Sinica》2013,27(6):832-848
In this paper, the microphysical relationships of 8 dense fog events collected from a comprehensive fog observation campaign carried out at Pancheng(32.2 N, 118.7 E) in the Nanjing area, China in the winter of 2007 are investigated. Positive correlations are found among key microphysical properties(cloud droplet number concentration, droplet size, spectral standard deviation, and liquid water content) in each case, suggesting that the dominant processes in these fog events are likely droplet nucleation with subsequent condensational growth and/or droplet deactivation via complete evaporation of some droplets. The abrupt broadening of the fog droplet spectra indicates the occurrence of the collision-coalescence processes as well, although not dominating. The combined efects of the dominant processes and collision-coalescence on microphysical relationships are further analyzed by dividing the dataset according to visibility or autoconversion threshold in each case. The result shows that the specific relationships of number concentration to volume-mean radius and spectral standard deviation depend on the competition between the compensation of small droplets due to nucleation-condensation and the loss of small droplets due to collision-coalescence. Generally, positive correlations are found for diferent visibility or autoconversion threshold ranges in most cases, although negative correlations sometimes appear with lower visibility or larger autoconversion threshold. Therefore, the compensation of small droplets is generally stronger than the loss, which is likely related to the sufcient fog condensation nuclei in this polluted area. 相似文献
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基于2016-02-01—2016-05-21在南海博贺海洋气象观测平台观测的实验资料,首先利用整体空气动力学算法分别计算海气界面处感热通量与潜热通量,同时利用涡动相关法计算液滴蒸发层处总的感热通量与潜热通量。然后比较海气界面处热通量与液滴蒸发层处热通量的值,并利用差比法分别对2处感热通量和潜热通量进行做差计算。结果表明:液滴蒸发层处热通量与海气界面处热通量存在明显差异。通过与海洋飞沫引起的热通量值比较,结果表明液滴蒸发层处热通量与海气界面处热通量的差值由海洋飞沫作用引起;且在中低风速条件下,海洋飞沫引起的热通量与风速呈正相关;相比感热通量而言,潜热通量随着风速的变化更为显著。 相似文献