快速加固吹填土的室内模拟试验

吹填造陆是解决沿海地区建设用地不足的主要方法之一。为了使吹填土在较短的时间内获得较好的加固效果,结合吹填土特殊工程地质性质和加固过程中强度增长具有阶段性的特点,提出了边吹填边加固的加固思路。在该思路的指导下进行室内模拟试验。试验发现不同加固阶段吹填土强度增长表现出明显的分带性;与竖向排水体距离小于25 cm的土体强度增长较快;随着加固时间的延长,待加固土体强度整体增长;当持续真空加荷一个月时,部分待加固土体承载力已达到80 kPa。可以看出,强度增长与外部荷载的大小、渗透路径的长短、附加应力的大小密切相关。分阶段加固的方法在一定程度上抑制了泥皮的形成,缩短了真空加荷时间,节约工期,有利于吹填土的加固。     

初论纳米比亚罗什皮纳地区斑岩型铜矿地质特征——以罗雷铜矿为例

纳米比亚罗什皮纳地区成矿地质条件优越,已发现罗雷铜矿、斯克皮铅锌矿、罗什皮纳铅铜矿及海伯超大型铜矿床以及多处Cu,Pb,Zn,Au及Bi等多处矿(化)点,可望形成铜、铅、锌、钼等多金属矿床集中区,找矿潜力巨大。该文在分析该区地质背景的基础上,总结了罗雷铜矿的地质特征,对其成因进行了探讨,并对罗雷铜矿和海伯铜矿之间的大部地区铜矿找矿潜力进行了展望,指出激发极化法是该区隐伏铜矿床勘查的有效物探手段。     

深海内波空间啁啾的演变研究

根据基于两层流体推导的深海内波弱非线性薛定谔(Nonlinear Schrodinger,简称NLS)方程,引进空间啁啾的思想,研究深海区频散效应和非线性效应的作用。文中推导出了频散效应和非线性效应所致啁啾的表达式,采用数值计算方法计算了综合效应产生的总啁啾。分析了频散和非线性以及综合效应所致啁啾在深海内波传播中的演变规律。从空间啁啾的角度,解释中国南海东沙群岛附近深海区内波演变的机理。     

基于岩心室应力应变和不确定度分析的致密储层氦孔隙度测量方法

致密油气层的物性(孔隙度和渗透率)较差.针对致密储层,目前常用的氦气法孔隙度测量方法存在两个不足:器壁压变性参数G定义不明确;膨胀前压力设置普遍偏小.本次基于氦气法孔隙度测量装置岩心室的应力应变力学分析和不确定度理论分析,开发了一种面向致密储层的氦孔隙度测量方法.本次提出的方法给出了器壁压变性参数G的解析式,并基于G的解析式推导出了新的孔隙度计算公式,将刻度系数减少到1个,简化了刻度过程.其次,基于不确定度理论得到的孔隙度测量不确定度表明:氦气法测量致密储层孔隙度的膨胀前压力大于2 MPa基本可以将孔隙度绝对误差控制在0.5%以内.与高压压汞法孔隙度测量结果对比发现,该方法测量孔隙度的相对偏差在14%以内,远低于常规氦气法测量孔隙度的相对偏差(50%).     

数字哈密地理信息公共服务平台设计与实现

以数字哈密地理信息公共服务平台建设为例,总结研究了地理信息公共服务平台设计和建设方案。通过信息提取、扩充、重组等整合处理建立适应信息时代要求的公共数据集,开发具备信息集成、浏览查询、统计分析、互联互通以及二次开发等功能的分布式服务系统,配置完善的软件、硬件和网络支撑环境,建成权威的地理信息公共平台,实现地理空间信息和其他专题信息的实时交换和共享,服务和推进政府及各部门的信息化建设。     

大连湾60多年来生态环境地质演化

依据对大连湾60多年来沉积柱的生态环境地质演化研究，发现其污染变化可以分为3个时期：①1933－1974年为洁净时段；②1974－1989年为污染较重时段；③1989－1997年为严重污染时段。若视第一时段的污染度为0，则第二时段的污染度为第一时段的8倍，第三时段的污染度为第一时段的25倍，可见污染度增加是非常迅速和严重的。其中Cd、Pb、As、S、Zn5种元素含量增加最快。1997年大连湾表面沉积物中Cd、Hg、Pb、As的含量分别为自然背景值的81．42倍、6．0倍、7．54倍、3．82倍，表明大连湾污染的严重性。研究发现自1950年以来大连湾生物多样性急剧下降，说明污染度增加已对生命健康造成严惩的影响。大连湾的臭水套已成为一个生物多样性异常低下的、超级污染的环境，是一颗巨大的隐性化学定时炸弹。     

WGS-84&CGCS2000坐标基准转换参数的初步求取

针对WGS-84CGCS2000坐标基准差异问题,分析了用于估计基准转换参数的Bursa模型及其求解方法,初步尝试求取WGS-84CGCS2000的坐标基准转换参数。算例采用了中国区域内含有CGCS2000坐标值,同时安装有GPS接收机的21个观测站,并针对点位的区域分布问题,提出利用重心化的Bursa模型求解转换参数的思路,且得到一组较好的转换结果。     

Soil property variation mapping through data mining of soil category maps

Spatial information on soil properties is an important input to hydrological models. In current hydrological modelling practices, soil property information is often derived from soil category maps by the linking method in which a representative soil property value is linked to each soil polygon. Limited by the area‐class nature of soil category maps, the derived soil property variation is discontinuous and less detailed than high resolution digital terrain or remote sensing data. This research proposed dmSoil, a data‐mining‐based approach to derive continuous and spatially detailed soil property information from soil category maps. First, the soil–environment relationships are extracted through data mining of a soil map. The similarity of the soil at each location to different soil types in the soil map is then estimated using the mined relationships. Prediction of soil property values at each location is made by combining the similarities of the soil at that location to different soil types and the representative soil property values of these soil types. The new approach was applied in the Raffelson Watershed and Pleasant Valley in the Driftless Area of Wisconsin, United States to map soil A horizon texture (in both areas) and depth to soil C horizon (in Pleasant Valley). The property maps from the dmSoil approach capture the spatial gradation and details of soil properties better than those from the linking method. The new approach also shows consistent accuracy improvement at validation points. In addition to the improved performances, the inputs for the dmSoil approach are easy to prepare, and the approach itself is simple to deploy. It provides an effective way to derive better soil property information from soil category maps for hydrological modelling. Copyright © 2014 John Wiley & Sons, Ltd.     

The glacial topography in the area of the middle-lower reaches of the Yangtze river

The Quaternary glacial landforms, such as cirques, glacial troughs, rockdrumlins and lateral moraines are discovered in the area of the middle-lower reaches of the Yangtze river. The isograms of gravels in the moraines reveal that the a-axes of the gravels are mostly parallel to the trends of the valleys. The inclinations of the a-axes of the gravels are 18°–23°. The tendency of the ab-pianes is varied. The inclinations of ab-planes are 15°–20°. The fine grains in the moraines are of bimodal form in the size-frequency curves. The surface of the quartz grains of the moraines possess typical characteristics of glacial sands. Based on the feature of glacial landforms and the data of analysis of the experiment in the laboratory, authors divide the climatic period of Quaternary in this area into four glacial stages.