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951.
热带深对流云对CO、NO、NOx和O3的垂直输送作用 总被引:2,自引:1,他引:1
利用2005年11月至2006年2月ACTIVE (Aerosol and Chemical Transport in tropIcal conVEction) 外场试验期间在澳大利亚北部达尔文地区取得的CO、O3、NO和NOx飞机探测资料, 并结合HYSPLIT后向轨迹模式结果, 分析这几种气体成分在对流卷云砧内外的分布情况, 并探讨热带深对流云对于污染气体的垂直输送作用。分析结果显示, 在孤立对流云卷云砧中, 云砧内部O3、NO、NOx浓度均大于云外; 而CO则不同, 只有在近地面浓度高时才如此, 在近地面浓度较小时, 卷云砧内部的浓度反而小于云外。进一步分析造成这两类气体分布差异的原因, 发现CO主要借助深对流云将对流层下层以及对流云周围环境中的CO夹卷并动力垂直输送到对流云顶部卷云砧中, 而对于O3、NO和NOx来说, 除了上述作用以外, 还可能与对流云内部其他物理机制(如闪电), 造成新的O3、NO和NOx有关, 这些新生气体随着风暴内部强烈的上升气流被最终输送进云砧中。 相似文献
952.
Little Kickapoo Creek (LKC), a low‐gradient stream, mobilizes its streambed–fundamentally altering its near‐surface hyporheic zone–more frequently than do higher‐gradient mountain and karst streams. LKC streambed mobility was assessed through streambed surveys, sediment sampling, and theoretical calculations comparing basal shear stress (τb) with critical shear stress (τc). Baseflow τb is capable of entraining a d50 particle; bankfull flow could entrain a 51·2 mm particle. No particle that large occurs in the top 30 cm of the substrate, suggesting that the top 30 cm of the substrate is mobilized and redistributed during bankfull events. Bankfull events occur on average every 7·6 months; flows capable of entraining d50 and d85 particles occur on average every 0·85 and 2·1 months, respectively. Streambed surveys verify streambed mobility at conditions below bankfull. While higher gradient streams have higher potential energy than LKC, they achieve streambed‐mobilization thresholds less frequently. Heterogeneous sediment redistribution creates an environment where substrate hydraulic conductivity (K) varies over four orders of magnitude. The frequency and magnitude of the substrate entrainment has implications on hyporheic zone function in fluid, solute and thermal transport models, interpretations of hyporheic zone stability, and understanding of LKC's aquatic ecosystem. Copyright © 2008 John Wiley & Sons, Ltd. 相似文献
953.
A two‐scale modeling of solute transport in double‐porosity (DP) media under unsaturated water flow conditions is presented. The macroscopic model was developed by applying the asymptotic homogenization method. It is based on theoretical and empirical considerations dealing with the orders of magnitude of characteristic quantities involved in the process. For this purpose a physical model that mimics the behavior of DP medium was built. The resulting two‐equation model relies on a coupling exchange term between micro‐ and macro‐porosity subdomains associated with local non‐equilibrium solute concentrations. The model was numerically implemented (Comsol Multiphysics®) to simulate the macroscopic one‐dimensional physical process taking place into the porous medium of 3D periodic microstructure. A series of dispersion experiments of NaCl solution under unsaturated steady‐state flow conditions were performed. The experimental results were used first to calibrate the dispersion coefficient of the model, and second to validate it through two other independent experiments. The excellent agreement between the numerical simulations and the measurements of the time evolution of the non‐symmetrical breakthrough curves provides a proof of predictive capacity of the developed model. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
954.
本文利用2010—2019年滇中石林县的全球再分析资料,通过HYSPLIT模型的后向轨迹对不同季节和不同高度的水汽来源进行追踪和分析。结果表明:石林县四季的水汽源地和水汽运移路径存在差异。春季水汽主要来源于受高空西风影响的欧亚大陆和非洲北部,夏季水汽主要来源于孟加拉湾,南海和西太平洋海域,秋季水汽主要来源于孟加拉湾—南海和西太平洋,冬季主要来源于欧亚大陆和非洲北部的高空西风、孟加拉湾海域。石林县的水汽通道有阿拉伯海和孟加拉湾—南海、西太平洋、欧亚非大陆、局地五条水汽通道,且春夏秋冬四季的不同高度层的水汽输送通道和水汽贡献率存在较大差异。 相似文献
955.
This paper assesses the mechanisms and pathways by which peat blocks are eroded and transported in upland fluvial systems. Observations and experiments from the north Pennines (UK) have been carried out on two contrasting river systems. Mapping of peat block distributions and appraisal of reach‐based sediment budgets clearly demonstrates that macro‐size peat is an important stream load component. In small streams block sizes can approximate the channel width and much of the peat is transported overbank. Local ‘peat jams’ and associated mineral deposition may provide an important component of channel storage. In larger systems peat blocks rapidly move down‐channel and undergo frequent exchanges between bed and bank storage. Results of peat block tracing using painted blocks indicate that once submerged, blocks of all sizes are easily transported and blocks break down rapidly by abrasion. Vegetation and bars play an important role in trapping mobile peat. In smaller streams large block transport is limited by channel jams. Smaller blocks are transported overbank but exhibit little evidence of downstream fining. In larger rivers peat blocks are more actively sorted and show downstream reduction in size from source. A simple model relating peat block diameter (Dp) to average flow depth (d) suggests three limiting transport conditions: flotation (Dp < d), rolling (d < Dp > d/2) and deposition (Dp > d/2). Experiments demonstrate that peat block transport occurs largely by rolling and floating and the transport mechanism is probably controlled by relative flow depth (d/Dp ratio). Transport velocity varies with transport mechanism (rolling is the slowest mode) and transport lengths increase as flow depth increases. Abrasion rates vary with the transport mechanism. Rolling produces greater abrasion rates and more rounded blocks. Abrasion rates vary from 0 to 10 g m?1 for blocks ranging in mass from 10 to 6000 g. Copyright © 2001 John Wiley & Sons, Ltd. 相似文献
956.
ZHU Xueyu Department of Earth Sciences Nanjing University Hankou Ro Nanjing QIAN Xiaoxing Faculty of Civil Engineering Hohai University Nanjing LIU Jianli Institute of Soil Science Chinese Academy of Sciences Nanjing 《《地质学报》英文版》2001,75(3):294-297
In this paper, the hydraulic characteristics of the fracture-karst aquifer and the distribution patterns of petrochemical contaminants are studied. Then, a numerical model using the mixed Eulerian-Lagrangian approach is constructed to predict the distribution and transport of petrochemical compounds in groundwater. The results of numerical modelling and sensitivity analysis show that it may be a workable way for aquifer remediation to combine contamination sources control and capture zone establishment. 相似文献
957.
断裂输导系统及其组合对油气成藏的控制作用 总被引:19,自引:0,他引:19
断裂输导系统是油气在地下进行垂向运移的主要通道。它是由裂缝或裂缝-孔隙网络构成的,具有穿层,长距离垂向运移和周期性二个特点,断裂输导系统还可以与连通砂体,不整合面组合形式断裂-连通砂体,断裂-不整合面和断裂-连通砂体-不整合面复合输导系统,它们不仅控制油气成藏模式,而且其沿伸层位控制着油气的空间分布层位。 相似文献
958.
K. Parameswaran 《Journal of Earth System Science》2001,110(3):247-265
Characteristics of aerosols in the Atmospheric Boundary Layer (ABL) obtained from a bistatic CW lidar at Trivandrum for the
last one decade are used to investigate the role of ABL micro-meteorological processes in controlling the altitude distribution
and size spectrum. The altitude structure of number density shows three distinct zones depending on the prevailing boundary
layer feature; viz, the well-mixed region, entertainment region and upper mixing region. In the lower altitudes vertical mixing
is very strong (the well-mixed region) the upper limit of which is defined as aerosol-mixing height, is closely associated
with the low level inversion. The aerosol mixing height generally lies in the range 150 to 400 m showing a strong dependence
on the vertical eddy mixing processes in ABL. Above this altitude, the number density decreases almost exponentially with
increase in altitude with a scale height of 0.5–1.5 km. The aerosol mixing height is closely associated with the height of
the Thermal Internal Boundary Layer (TIBL). Sea-spray aerosols generated as a result of the interaction of surface wind with
sea surface forms an important component of mixing region aerosols at this location. This component shows a non-linear dependence
on wind speed. On an average, depending on the season, the mixing region contributes about 10–30% of the columnar aerosol
optical depth (AOD) at 0.5Μm wavelength. A long term increasing trend (∼ 2.8% per year) is observed in mixing region AOD from
1989 to 1997. A study on the development of the aerosols in the nocturnal mixing region shows that the convectively driven
daytime altitude structure continues to persist for about 4–5 hrs. after the sunset and thereafter the altitude structure
is governed by vertical structure of horizontal wind. Stratified aerosol layers associated with stratified turbulence is very
common during the late night hours. 相似文献
959.
Open cast mining of lignite leads to dumps containing highly mineralised pore waters. To predict the impact of the dump waters on the undisturbed aquifers two steps are necessary. (1) The prediction of dump water quality at times when steady state flow conditions will be established. (2) The simulation of the dump ground water migration with a model that is able to handle the complexity of the homogeneous and heterogeneous interactions of the migration process.For the investigated site Jänschwalde, which is still dewatered, a chemical mass balance was performed. The predicted alkalinity potentials exceed acidity potentials for the dump as a whole. The distribution of these parameters show high alkalinity potentials for the northern part.In order to model the migration process the transport code PCGEOFIM® [Anwenderdokumentaion, IBGW Leipzig, (in German)] was coupled with the geochemical equilibrium code PHREEQC [USGS, Water-Resources Investigations Report]. This was done to simulate redox reactions, mineral dissolution and precipitation, and cation exchange in the ground water zone. The model is verified by a column flow test. The results of the simulations show a small effect of the migrating dump waters on the quartenary aquifer with respect to acidity changes. This results from calcite buffering and cation exchange. The impact on the quartenary aquifer by sulphate is much higher. 相似文献
960.