Developing a Lagrangian sediment transport model for open channel flows

A three-dimensional stochastic Lagrangian particle tracking sediment transport model is developed to solve the discrete advection-dispersion equation using a combination of empirical dispersion equations.The performance of three widely-used longitudinal dispersion coefficient equations was examined to select one of them as the primary dispersion equation term in the developed model. Also, a conditional empirical equation was used to consider the effect of vertical dispersion term in top layers n...     

Experimental study of the settling of twin spherical particles released side by side: The impact of particle size,fluid viscosity,initial spacing,and particle density

The settling of solid particles in a fluid is an important process that needs to be considered in many fields of research. For example, the interactions among particles and between particles and the surrounding fluid are important topics in studying suspended sediment transport and water clarification. In this paper, the settling processes and interactions of twin spherical particles released side by side were experimentally studied. The Reynolds number varied in the range of 1-300, which is wit...     

概率风险评价及其在天基测控系统分析中的应用

介绍了概率风险评价方法及其相关的应用情况,给出了概率风险方法实施的一般过程,并将该方法应用于我国的天基测控系统风险分析中,给出了具体的应用示例,示例表明：概率风险评价方法对于研究天基测控系统的风险并采取相关措施有着积极的意义。     

A general Lagrangian tracking methodology for riverine flow and transport

This article presents a new public domain tool for generalized Lagrangian particle tracking in rivers. The approach can be applied with a variety of two- and three-dimensional flow solvers. Particle advection by the flow is incorporated using flow fields from the chosen solver assuming particles follow the Reynolds-averaged flow, although some other simple passive and active particle behaviors are also treated. Turbulence effects are treated using a random walk algorithm with spatial step lengths randomly chosen from Gaussian distributions characterized by the diffusivity from the flow solver. Our work extends this concept to a general framework that is solver and coordinate system independent to allow easy comparisons between differing flow treatments. To better treat problems where detailed information is required in specific regions, the approach includes novel cloning and colligation algorithms which enhance local resolution at modest computational expense. We also provide tools for computing local concentrations and total exposure over a user-specified time interval. Several examples of predictions are provided to illustrate applications of the technique, including examination of the role of curvature-driven secondary flows, storage in lateral separation eddies, treatment of larval drift, treatment of fuel spill dispersion, river-floodplain connections, and sedimentation in floodplain ponds by tie channel connections. We also demonstrate that the model can reproduce analytically derived concentration profiles for simple diffusivities. These examples show that the Lagrangian particle tracking approach and the extensions proposed here are broadly applicable and viable for treating difficult river problems with multiple temporal and spatial scales. The examples also illustrate the utility of the cloning/colligation extensions and show how these can decrease the computational effort required on problems where high local resolution is required. Enhancement of the tools and even broader applicability can be achieved through the inclusion of multiple particle populations and particle–particle interactions.     

侧扫声呐在人工鱼礁跟踪监测中的应用

随着海洋渔业资源的衰退和海洋生态环境的破坏,人工鱼礁技术得到迅速发展,成为海洋牧场建设的重要组成部分。虽然在人工鱼礁的设计时已考虑了防沉降、防倾覆等因素,但在建设过程中仍会面临上述问题,影响礁区的建设效果。利用侧扫声呐对连云港海州湾海洋牧场示范区进行鱼礁数据采集,根据阴影长度计算目标物高度的原理计算目标鱼礁的高度,分析对比鱼礁沉降量,结果表明个别礁体存在破损、倾斜,实际礁体布局与预设布局有一定的偏差,方形礁体抗沉降能力优于“十”字形礁体。     

基于AIS信息校准的双频地波雷达的船只融合跟踪

高频地波雷达（HFSWR）和自动船只确认系统（AIS）是船只跟踪的重要传感器。高频地波雷达可以用来跟踪探测区域的所有船只,而AIS只能用来确认合作船只的信息。由于海杂波的干扰,使用单频率地波雷达的船只跟踪会淹没在布拉格峰值的盲区里,改变探测频率是克服这一缺点的有效手段。在这种背景下,我们提出一种基于AIS校准的双频雷达融合探测算法。因为不同频率的地波雷达测量与AIS的测量值存在系统误差,所以AIS信息可以用来估计和校准地波雷达的每个频率的系统误差。首先,将合作目标的点迹测量与地波雷达的点迹测量通过JVC分配算法进行点迹关联。从合作船只的点迹关联结果中,双频雷达的系统误差可以估计和校准。其次,基于校准的双频雷达数据,使用融合JPDA-UKF算法进行船只跟踪。通过真实探测的数据的实验结果显示所提算法可以实时跟踪船只,相比单频率跟踪可以进一步提高跟踪能力和跟踪精度。     

受正弦扰动的线性时滞系统的最优输出跟踪控制

考虑参考输入由外系统给出的状态含有时滞的线性系统在正弦干扰下的最优输出跟踪问题.利用逐次逼近法,通过构造线性非齐次两点边值问题序列,求得了用于补偿时滞的伴随向量.分别利用参考输入外系统状态、干扰及其导数信号引入前馈控制作用.得到的控制律包含精确反馈项、前馈项和伴随向量极限形式的时滞补偿项.通过引入参考输入观测器解决由于引入外系统状态而导致的前馈控制律的物理不可实现问题.仿真结果表明该方法的有效性.     

2022年夏季长江流域干旱的水循环模拟和分析

基于WRF-WVT水汽追踪模式,对2022年6—8月长江流域极端干旱情况下的水循环进行模拟研究,分析了长江流域蒸散发对长江流域局地和非局地降水的影响。结果表明,2022年夏季干旱导致长江中下游陆地水储量在5—8月期间减少100～150 mm。6—8月长江流域约45％的蒸散发在当地和华北形成降水,其中6月长江流域蒸散发主要贡献当地降水,而7、8月对当地和华北降水的贡献大致相等。6—8月长江流域蒸散发贡献的当地降水逐月减少,总量为8.2×10⁷ m³(长江流域平均91.2 mm),并且降水强度越高当地蒸散发贡献率越小,对当地降水贡献最大的区域为四川盆地附近(最大超过40％)。长江流域蒸散发为华北提供的降水在6—8月先增多后小幅度减少,总量为5.3×10⁷ m³(华北平均58.4 mm),并且降水强度越高长江流域蒸散发贡献率越大。2022年夏季长江流域蒸散发对当地和华北地区暴雨的贡献率都为12％左右。     

龙感湖钻孔揭示的末次盛冰期以来的环境演化

通过龙感湖滩地钻孔24．4m深度以内的沉积物岩性、生物和物理指标分析,在^14C年代测定的基础上,对龙感湖末次盛冰期以来的环境演化进行了恢复,15．0kaBP前和10．0－6．3kaBP,龙感湖区发育河流沉积,以低生物量和高磁化率为特征;约15．0－10．0kaBP期间的晚冰期,龙感湖首次成湖,湖泊中生物量明显提高;现代龙感湖雏形始于约6．3kaBP后,至3．7kaBP后发展为稳定的湖泊环境,此外,花粉结果显示,龙感湖湿地相干被大致形成于3．3kaBP后,然后,龙感湖的成因和演化,及其与长江关系的研究,还必须重视对沉各物物源的追踪。     

“泛西南”地区加卸载响应比异常及大震活动预测与追踪

21世纪初, 在中国西南及周边地区(本文称为“泛西南”)开始出现大面积的加卸载响应比(以下简称LURR)异常, 根据LURR异常演化, 我们于2008年首次提出该地区正在孕育着“超大地震”。 追踪研究结果显示, 孕震积分I_t于2012年7月达到峰值。 根据LURR与量纲分析方法结合得到的预测地震时空强的新方法, 我们预测: 2015年7月前后(±25月), 在“泛西南”地区将发生8级左右“超大地震”。 我们在2014年参加的两次会议上交流了这一预测结果, 2015年4月25日尼泊尔M_S8.1强震发生在预测范围内。 尼泊尔M_S8.1地震后, “泛西南”地区的加卸载响应比大尺度异常不仅没有消退, 反而更加增强。 I_t于2015年7月达到新峰值, 超过了尼泊尔地震前的水平, 因此, “泛西南”地区可能仍面临非常严重的地震灾害。