准饱和黄土中暗穴水动力扩展响应的研究

为分析强降水过程中暗穴扩展机理,在野外调查资料的基础上,建立了准饱和黄土暗穴的扩展计算模型,概化为弹性准饱和土层中无限长圆柱形孔洞表面受水压力的动力响应问题。通过引入势函数,得到了Lap lace变换域中的应力、位移及孔隙水压力的解析表达式,并利用数值逆变换方法求得时域解,分析了降雨历时及饱和度等因子对暗穴动力响应的影响。结果表明,水动力是引起黄土暗穴扩展的主要因素,水压力作用历时对位移及应力有较大的影响,同时饱和度的细微变化对径向位移有显著影响。     

克里雅河尾闾圆沙三角洲古河道剖面所记录全新世古绿洲环境变化

塔克拉玛干沙漠腹地克里雅河沿岸的古绿洲与人类活动遗迹丰富,伴随着河流的变迁,遗址印记了古代文明的消失,河道成为孕育绿洲的证据.在浩瀚的沙漠中,古代文明与古绿洲属于依附关系.以圆沙古城为代表的圆沙古三角洲绿洲是孕育沙漠文明的典型.采自圆沙古城北侧深度约11 m的沉积剖面(KYN22),光释光测年和沉积学分析结果所示,剖面...     

基于D-InSAR技术的矿区地质灾害研究

近年来,随着经济的飞速发展,人类的生产活动加剧了部分地质灾害的产生,尤其是矿产行业,如何对矿区的地表沉陷进行有效监测成为众多学者的研究方向之一.随着雷达卫星的陆续布置,差分雷达干涉测量方法(D-InSAR)的高精度、全天候、成本低的特点使得它成为矿区沉降监测的重要手段之一.通过利用D-InSAR技术对试验区域的雷达影像...     

东海丽水-椒江凹陷构造样式与含油气远景

丽水-椒江凹陷位于东海陆架盆地台北坳陷西部,其沉降过程经历了裂陷期、坳陷期、抬升期及区域沉降期4个阶段。盆地构造样式复杂,具有半地堑-地堑式结构并存、频繁变化等特征,断裂构造发育,主要有铲式、坡坪式、多米诺式、"Y"型、阶梯状、地垒和地堑等断裂构造组合。构造活动有效控制油气圈闭的形成,灵峰构造带(潜山构造带)、丽水西次凹中央反转背斜构造带、丽水西次凹屋脊断块构造带、椒江凹陷中部断块半背斜构造带为该区未来勘探的有利区带。     

2006年夏季珠江口外海域船基海气通量观测资料质量评估

2006年夏季在珠江口外海域进行了143个站位的海气通量船基观测.设计了一个剔除船速的滤波器及资料处理程序,对观测资料进行了处理.通过对垂向观测风速的平均值、湍流功率谱、观测通量值的计算,得出该次观测方法是不可取的.设备安置在船舷外,气流绕过船体时形成上升气流并干扰了湍流场,测得的垂向平均风速不为零,一般存在0.2-1.0m·s-1的垂向平均风速,无量纲湍流功率谱在惯性次区不符合f-2/3次律,通过涡动相关法计算的动量通量远大于块体动力学公式的计算结果.今后的船基通量观测需要选取好设备安装位置及安装高度.     

GPS RTK点位精度与测验历时的关系

通过对不同测验历时的测点的点位精度进行技术统计,分析了应用GPSRTK技术测量时测验历时对点位精度的影响,总结了不同测验历时采集到的RTK数据的精度分布规律,得出不同要求的测量作业所需的不同的测验历时,对于如何更好的采用GPSRTK技术进行测绘作业有着积极的意义。     

索佳SET×130R系列全站仪的维修

介绍了索佳SET×130R系列全站仪的常规检查和调整,维修程序,为技术人员在解决索佳全站仪常见故障和几种指标参数的校正提供参考.     

影像地图集中色彩与符号设计的研究与实践

遥感技术的发展为地图制作提供了丰富多样的信息源,使地图从形式到内容都发生了全新的变化.影像地图已成为一种新型的地图品种,但影像地图的设计还面临着一些新的技术难题.结合影像地图集的编制,对影像地图集设计中两个关键技术,色彩设计与符号设计进行了研究实践,为影像地图集的设计制作提供理论和技术方法借鉴.     

Time-Domain Full Waveform Inversion Using the Gradient Preconditioning Based on Transmitted Wave Energy

The gradient preconditioning approach based on seismic wave energy can effectively avoid the huge memory consumption of the gradient preconditioning algorithms based on the Hessian matrix. However, the accuracy of this approach is prone to be influenced by the energy of reflected waves. To tackle this problem, the paper proposes a new gradient preconditioning method based on the energy of transmitted waves. The approach scales the gradient through a precondition factor, which is calculated by the ‘approximate transmission wavefield' simulation based on the nonreflecting acoustic wave equation. The method requires no computing nor storing of the Hessian matrix and its inverse matrix. Furthermore, the proposed method can effectively eliminate the effects of geometric spreading and disproportionality in the gradient illumination. The results of model experiments show that the time-domain full waveform inversion(FWI) using the gradient preconditioning based on transmitted wave energy can achieve higher inversion accuracy for deep high-velocity bodies and their underlying strata in comparison with the one using the gradient preconditioning based on seismic wave energy. The field marine seismic data test shows that our proposed method is also highly applicable to the FWI of field marine seismic data.     

Tidal Effects on the Bottom Thermal Front of North Yellow Sea Cold Water Mass near Zhangzi Island in Summer 2009

Three seabed-mounted TD/CTD chains and two upward-looking acoustic Doppler current profilers(ADCPs) in the southwest of Zhangzi Island are used and a simultaneous cruise observation in the northern North Yellow Sea(NYS) is conducted to study temperature variation in the bottom thermal front zone of the NYS Cold Water Mass(NYSCWM) during the summer of 2009. In the flood-ebb tidal cycles, the bottom temperature decreases(increases) during flood(ebb) tides, which are dominated by the tidal-current induced horizontal advection. The ebb tide-induced temperature increase is larger than the flood tide-induced temperature decrease due to seasonal warming. In the spring-neap tidal cycles, the temperature and the vertical temperature structure show notable fortnightly variation from 16 July to 25 August. The bottom temperature increases from neap to spring tides and decreases from spring to neap. The Richardson number demonstrates strengthened vertical mixing during spring tides but enhanced stratification during neap tides. The spring-neap variation in vertical shear caused by tidal current is the dominant factor that induces the fortnightly variation in vertical mixing and thus bottom temperature.