沉积盆地动力学的研究现状、问题与展望

沉积盆地动力学研究沉积盆地在地质历史时期的地质结构特征、成因机制及其对成矿、成藏的控制作用, 是地球动力学研究的重要组成部分.30多年来, 沉积盆地动力学经历了沉积盆地的板块构造分类与构造环境解释、盆地动力学的兴起, 盆地综合建模与盆地系统动力学3个发展阶段; 在沉积盆地的深部构造背景、盆-山关系、沉降机制、充填模式及其对能源、矿产的控制方面取得重要进展.目前, 在对不同层次、不同尺度、不同机制的盆地动力学综合分析, 全3-D和4-D盆地动力学模型的构建与检验, 及学术界与工业界的充分结合等方面面临重要挑战.需解决一系列关键科学问题: 沉积盆地的深部结构、过程与盆地形成; 沉积盆地的构造-气候古地理; 多旋回沉积盆地叠合动力学过程与原型盆地演化; 叠合盆地复合成矿(藏)系统流体运聚及其资源、能源效应等.基于大数据综合集成、多学科交叉渗透、观测技术与分析方法的不断进步与完善, 盆地动力学将在其结构构造、形成演化及其控矿(藏)的4-D综合模型方面取得突破, 并为人类社会、经济发展做出贡献.     

The impact of different vertical diffusion schemes in a three-dimensional oil spill model in the Bohai Sea

Vertical transport is critical to the movement of oil spills in seawater. Breaking waves play an important role by developing a well-defined mixing layer in the upper part of the water column. A three-dimensional （3-D） Lagrangian random walk oil spill model was used here to study the influence of sea surface waves on the vertical turbulence movement of oil particles. Three vertical diffusion schemes were utilized in the model to compare their impact on oil dispersion and transportation. The first scheme calculated the vertical eddy viscosity semi-empirically. In the second scheme, the vertical diffusion coefficient was obtained directly from an Eulerian hydrodynamic model （Princeton Ocean Model, POM2k） while considering wave- caused turbulence. The third scheme was formulated by solving the Langevin equation. The trajectories, percentages of oil particles intruding into water, and the vertical distribution structures of oil particles were analyzed for a series of numerical experiments with different wind magnitudes. The results showed that the different vertical diffusion schemes could generate different horizontal trajectories and spatial distributions of oil spills on the sea surface. The vertical diffusion schemes caused different water-intruding and resurfacing oil particle behaviors, leading to different horizontal transport of oil particles at the surface and subsurface of the ocean. The vertical diffusion schemes were also applied to a realistic oil spill simulation, and these results were compared to satellite observations. All three schemes yielded acceptable results, and those of the third scheme most closely simulated the observed data.     

流体包裹体研究对成矿流体动力学模式的制约

热液矿床的形成既包括地球化学过程也包括流体动力学过程,后者主要研究成矿流体的驱动力、流动方向、速度及持续时间。流体及金属的来源,金属在热液中的溶解度及溶解机制,以及矿石的沉淀机制等可以通过多种地球化学手段来研究,而流体动力学过程的确定相对比较困难。流体包裹体分析不仅可以为成矿地球化学过程,而且可为流体动力学过程提供制约,因为流体包裹体研究所得到的流体P-V-T-X性质与流体流动、热传导及质量迁移等控制方程直接相关。本文阐述流体包裹体与流体动力学研究的理论关系,流体包裹体研究对已有成矿流体动力学模式的贡献,以及未来的研究方向。从流体包裹体研究得出的流体压力状态为岩浆热液及造山型成矿系统的超压驱动模式提供了关键的证据。流体包裹体均一温度及其分布为沉积盆地成矿流体动力学模式提供了重要的制约。流体包裹体研究在揭示流体混合及流体相分离等重要成矿过程方面提到了至关重要的作用,但它们在研究流体混合及多相流体流动的物理过程方面的潜力有待进一步开发。精心设计的流体包裹体研究有可能应用于古流体流动数值模型的调试。     

板翼动力锚水中自由下落过程数值模拟

板翼动力锚是依靠自重完成安装并靠自重和海床土的抗力来锚固的新型动力锚。板翼动力锚在水中自由下落的阻力决定了锚到达海床表面时的速度,进而直接决定了锚贯入海床中的深度以及它能提供的承载力。板翼动力锚的形状比较复杂,采用计算流体动力学的方法研究板翼动力锚的下落速度、水平位移和转角与下落位移的关系。计算结果表明:板翼动力锚的拖曳阻力系数约为0.93~1.12之间;在沉贯过程中应使加载臂与翼板共面以减少阻力;板翼动力锚的终端速度约为28 m/s。     

论f-和β-坐标系

旋转着的地球周围的大气和海洋中的行星尺度流场的描述，固然可以采用较精确的球坐标系统[1]，但是，更方便、更经常采用的却是所谓“f-平面”和“B-平面”坐标系[2]。譬如大气中Rossby波的引入[3]、大洋环流的西向强化的揭示[4]都是利用了B-坐标系。     

A siltation simulation and desiltation measurement study downstream of the Suzhou Creek Sluice,China

The Suzhou Creek Sluice is currently the largest underwater plain gate in the world, with a single span of 100 m. It is located in a tidal estuary at the junction of the Huangpu River and Suzhou Creek in Shanghai, China. In this study, physical and 2D vertical mathematical models were used to investigate and distinguish the mechanism of siltation downstream of an underwater plain gate from that of other gates types. According to quantitative data obtained by site investigation and the application of the physical hydrodynamic models, it was found that the characteristics of the tidal estuary as well as the fact that the sluice span is equal to the creek width are the major reasons contributing to siltation. A possible desiltation treatment system is proposed for the underwater plain gate. The system includes selection of a suitable location that allows the determination of a reasonable top elevation of the sluice floor, reserving sufficient space under the gate to accommodate siltation, setting up a mechanical desiltation system, and flushing silt along with overflow over the top of the gate. Furthermore, on-site hydraulic silt flushing experiments and a topography survey were conducted. These results showed that the measurement system is effective, and by maintaining this scheduled operation once a month, the downstream riverbed has been maintained in a good condition.     

黄河三角洲区域水动力条件下岸滩侵蚀研究

An ideal nature system for the study of post-depositional submarine mass changing under wave loading was selected in the intertidal platform of the subaqueous Huanghe River Delta, a delta formed during period from 1964 to 1976 as the Huanghe River discharged into the Bohai Gulf by Diaokou distributary. A road embankment constructed for petroleum recovery on the inter-tidal platform in 1995 induced the essential varieties of hydrodynamic conditions on the both sides of the road. With both sides sharing similarities in （1） initial sedimentary environment, （2） energetic wave loading, （3） differential hydrodynamic conditions in later stages, （4） enough long-range action, and （5） extreme shallow water inter-tidal platforms; the study is representative and feasible as well. Two study sites were selected on each side of the road, and a series of measurements, samplings, laboratory experiments have been carried out, including morphometry, hydrodynamic conditions, sediment properties, granularity composition, and fractal dimension calculation of the topography in the two adjacent areas. It was observed that in the outer zone, where wave loading with high magnitude prevailed, the tidal flat was bumpy and exhibited a high erosion rate and high fractal dimension. Further, the fractal dimension diminished quickly, keeping with the enlarging of calculative square size. However in the inner zone, where the hydrodynamic condition was weak, the tidal fiat was fiat and exhibited a low erosion rate and low fractal dimensions; the fractal dimension diminished with the enlarging of calcu- lative square size. The fractal dimensions in the different hydrodynamic areas equalized increasingly as the calculative square size accreted to threshold, indicating that the hydrodynamic condition plays a significant role in topography construction and submarine delta erosion process. Additionally, the later differentiation of sediment properties, granularity composition, microstructure characteristics, and mineral composition     

1992年8月19日苏萨梅尔地震的流体地球化学和流体动力学前兆

１９９２年８月１９日在北天山苏萨梅尔山脉地区发生了近１０年来最强的地震事件，其震级为Ｍ＝７．３。虽然有着很大的震中距（Δ〉３００ｋｍ），但是当这个大地震在孕育和发生阶段，在阿拉木图地震实验场的那些观测站上仍然在地下水中显示了气体化学和流体地球动力学参数的一系列变化。在地震前２￣２．５个月，在距震中３５０￣４５０ｋｍ的秋施喀拉（Чушкала）台、塔乌－土尔叠（Ｔａｙ－ＴｙｐｒｅＨｂ）台以及喀尔干（     

鄂尔多斯盆地北部古风化壳岩石-流体反应动力学模拟研究

古风化壳在油气储集、运聚中占重要地位，如华北、鄂尔多斯、塔里木盆地等地区重要油气藏的形成，与其碳酸盐岩顶部古风化壳密切相关。综合应用流体动力学、化学动力学及化学热力学理论，对古风化壳风化期岩石-流体相互作用过程动态模拟，重现古风化壳风化期流体动力场和化学动力场，从而达到定量预测古风化壳风化期物性参数（如孔隙度、渗透率等）变化的目的，最终为储层定量评价提供参数。岩石-流体反应动力学模拟是通过计算机对岩石与流体相互作用过程作一个动态再现，具有重要理论价值与实际意义     

基于数据融合降低气温测量辐射误差的仿真分析与试验研究

地表气温上升速度约为0.1℃/(10 a),然而受太阳辐射影响,地面气象站观测到的气温会高于真实大气温度,存在1℃量级的辐射误差.因此,本文提出了一种基于数据融合的铝壳温度传感器设计.首先,利用流体动力学方法计算温度传感器在不同环境条件下的辐射误差.其次,为获得连续辐射误差结果,利用神经网络算法对辐射误差数值计算结果进...