长江水下三角洲的动力沉积

2002年9-10月在长江水下三角洲获取了163个表层样,综合粒度、有孔虫、介形类、有机碳以及CaCO3含量的资料表明,研究区明显分为两部分,即长江河口现代三角洲扣晚更新世末期三角洲。根据表层沉积物的粒度特征,现代水下三角洲可以分为以黏土质砂扣细砂为主的前缘斜坡区(A区)、以黏土质粉砂为主的前三角洲区(B区)扣以砂一粉砂一黏土为主的三角洲向陆架过渡区(C区),呈现较为明显的粒径细化趋势,有机碳与黏土含量呈现明显的正相关,CaCO3含量的变化不大,从Pejrup图可以看出现代三角洲从A区到C区的动力递减变化。晚更新世末期三角洲(D区)粒径较粗,有孔虫扣介形类的氧化壳含量较高,有孔虫扣介形类的丰度扣含量也较高,CaCO3的含量较高,与现代三角洲形成明显的对照。对比20世纪70年代和80年代的资料,近岸物质趋向粗化,北支水下沙脊发育,现代三角洲不断向外扩展,残留砂面积减少。50多年来河口来沙的减少已经引起整个现代三角洲物质粗化,现代沉积区沉降中心面积大幅度减少。     

A three-dimensional model study on ocean dynamic response to traveling cyclone over the Huanghai Sea

On the basis of numerical simulation of the mean circulation and relevant thermal-salinity fields in June with a three-dimensional ocean model (ECOM-si), the model outputs are used as first guess of initial fields for numerical integration of the model equations and the numerical results are applied to investigating the dynamical responses of the Huanghai Sea and the East China Sea (HECS) in the course of a weak land-to-sea cyclone‘s passage over the Huanghai Sea on 15-16 June 1999. Predominance of the dynamic impact of cyclone over the thermal one in June in the HECS is justified using observations and model simulations.The cyclone and its surrounding weather system, i.e,, subtropical high ridge to its south could influence current and thermal fields in the Bohai Sea, the Huanghai Sea and the northern East China Sea even though the intensity of cyclone was rather weak. The response of oceanic currents to the wind stresses driven by the cyclone and its southern subtropical high were strongly characterized by the wind drift with its extent of equivalent scale of cyclone in the horizontal and of Ekman layer in the vertical. The sea response at a given site was closely related to the transient local wind speed and direction,especially was sensitive to the local wind direction,which is demonstrated at three points locating at the southern and western Huanghai Sea and the northern East China Sea. So the sea responses at locations differed considerably from one another. Current responded to the wind stress in a simple way:directly to the wind-driven current and subsequent gradient current and slope current, etc., whereas sea temperature responded to the wind stress in two ways: directly to the cyclone-induced cooling and indirectly to water movements both in the horizontal and the vertical by the cyclone‘ s wind stress. So the sea temperature variation under the influence of cyclone was more complicate than the current. The HECS in response to the cyclone and its ambient weather system was likely to be a fast process and such a response could last at least for more than 1d. Current increased with the duration of wind stress exerted on the surface and decreased with the increasing depth. Affected by the cyclone, the maximum sea surface temperature decreased by almost 1.6℃ during the 24h cyclone.     

转塔位置对FPSO水动力性能的影响

转塔位置是内转塔式FPSO设计中的重要参数,对风标效应以及运动和系泊力等有重要影响.采用时域分析方法分别计算了10万吨级FPSO在不同转塔位置时百年一遇风、浪、流海洋环境条件作用下的运动响应和系泊力,分析了不同转塔位置对FPSO水动力性能的影响.计算结果与模型实验进行了比较,结果表明,转塔位置的变化对FPSO风标效应、转塔系泊力等影响显著.分析结果对于选择理想的转塔位置具有一定的实际意义.     

强冲刷侵蚀岸段水深地形变化成因分析

海底地形变化是海洋动力变化的直接表征之一,强冲刷侵蚀岸段水深地形变化,主要是由于风暴潮等恶劣天气而形成的波浪扰动起海底表层物质成分,并由海流和风完成了对悬沙的运移所致.风暴潮引起海浪在海岸浅水处破碎,卷破波的水舌向下冲击时,在海底形成很大的旋涡,把泥沙掀动起来,在风流潮和的作用下,致使侵蚀冲刷快速的呈现,造成了水深地形的变化.一般情况下,水深地形变化较大地段由于泥沙的自然盈亏影响较小,人为的因素改变了自然平衡发生变化是重要因素.而冲刷侵蚀岸段的水深地形变化与海洋动力紧密相关,因此,研究分析海洋动力与水深地形变化的成因,对海岸工程及其防护至关重要.     

泥石流颗粒组成的分形特征

1 IntroductionD ebris flow s in certain sense are a process of m ass interchanges through erosion and depositionbetw een the fluid and the sedim ent; and the interchange of m aterial caused change in thestructure of the flow s that can be ultim ately redu…     

横观各向同性含液饱和多孔介质黏弹性瞬态反应

在考虑横观各向同性含液饱和多孔介质固体骨架和流体可压缩性以及固体骨架的黏弹性特征下,基于横观各向同性含液饱和多孔介质u-w形式的三维动力控制方程,以固相位移u、液相相对位移w为基本未知量,综合运用Laplace变换、双重Fourier变换等方法,在直角坐标系下通过引入中间变量,将六元2阶动力控制方程组化为两组各含4个未知变量的常微分方程组,给出了直角坐标系下横观各向同性含液饱和多孔介质三维黏弹性动力反应的积分形式一般解;作为理论推导的验证,通过引入初始条件和边界条件,对横观各向同性含液饱和多孔介质半空间黏弹性瞬态反应问题进行了求解。解答的退化验证表明,所推导的理论解是正确的。     

层状半空间中洞室对入射平面SV波的散射

利用间接边界元法,在频域内求解了层状弹性半空间中洞室对入射平面SV波的散射问题。通过自由场反应分析,求得假想洞室边界上各点位移和各单元应力响应。在洞室边界各个单元上施加虚拟分布荷载,求得位移和应力的格林函数。根据应力边界条件确定虚拟分布荷载,将自由场位移响应和虚拟分布荷载产生的位移响应叠加起来,即得到问题的解答。比较了层状半空间和均匀半空间中洞室对入射平面SV波的放大作用。结果表明,层状半空间情况有可能导致较大的地表位移幅值,尤其是对于较低频率入射波。     

岩体动力失稳终止点、能量释放量解析解与图解

以精确和近似突变模型方式,按Ⅱ体的步调,给出了岩体系统动力失稳弹性能释放量的解析解和图解;将地震、岩爆前后阶段岩体系统稳定性的定性认识提高到定量描述;严格确定了岩体系统弹性能瞬间释放终止点位置,为计算地震效率、研究释放的地震能量级、地震应力降、震后断层错距和围岩弹性应变恢复量提供了科学依据。系统失稳时具备对外界做功的本领,地震波能便是失稳的岩体系统以破坏性方式对环境做功。给出的弹性能释放量图解中蕴涵了丰富的信息量,为确定岩体动力失稳问题的数学模型是折迭突变模型给出有力佐证。     

现浇薄壁管桩低应变动力检测适应性探讨

现浇薄壁管桩是一种大直径的管桩,在低应变检测时必然存在平截面假定不满足以及桩头三维效应的问题。无桩帽管桩低应变检测时由于激发了非轴对称的弯曲模态,并不是达到一定的深度平截面假定就会满足,各截面不同的点会受到不同程度的高频干扰,桩顶90°点受到了较小的高频干扰,低应变检测时激振点与传感器夹角为90°时更容易得到清晰的反射波信号。解析解和有限元解的结果均表明,带帽桩在桩帽的动力响应信号能看到明显的桩底反射和缺陷反射时距离桩心不同点上所感受的高频干扰的频率一样,速度振幅不同,距桩心0.50 （ 为桩半径）的点受到最小的干扰。     

深厚覆盖层上土石坝抗震分析的三维真非线性方法及应用

针对强震区深厚覆盖层上土石坝工程的特点,基于土石料三维粘弹塑性动力本构模型,考虑孔隙水压力消散和扩散,建立了深厚覆盖层上土石坝地震反应分析的三维真非线性有效应力动力分析方法及抗震安全评价方法。利用土石料动力特性的大型三轴试验成果,对一深厚覆盖层上的土石坝进行了地震反应分析,给出了坝体及覆盖层地基的加速度反应、应力反应,并结合单元抗震安全系数、防渗墙动应力、地震残余变形、坝坡动力稳定性等进行了抗震评价,为大坝的抗震设计提供了有力的技术依据。