加肋土工膜与砂土界面中附加应力计算

土工膜与砂土界面力学特性直接影响着填埋场衬垫系统的稳定性。依据弹性力学和土力学的基本理论,推导出加肋土工膜与砂土界面附近砂土中附加应力解析解,得到相应的应力分布。分析结果表明,加肋土工膜与砂土界面中附加应力等值线以双曲线型拱、扩肩型拱和圆弧型拱这3种分布形态存在的,砂土中任意点附加应力分布形态只与肋块长度、肋块表面距离远近有关,与肋块所受端承阻应力无关;在相同条件下,条形肋块比块状肋块对砂土附加应力的影响大,条状加肋土工膜能更有效地提高界面的剪切性能;离肋块表面距离越远,砂土中附加应力值越小,当与肋块表面距离达到12 mm时,这时砂土中附加应力几乎为0,也即肋块对其附近砂土的影响范围为12 mm左右。     

大别造山带地壳泊松比结构与超高压变质带—来自宽角反射与近垂直反射剖面的启示

综合宽角反射、近垂直反射的探测结果和有关地质资料，对大别造山带地壳结构和超高压变质带研究显示：大别造山带地壳具有层块结构特征。沿安义－庄墓剖面，上地壳有7个弹性块体，中地壳有5个，下地壳有4个。扬子与华北地块的主缝合带是超高压变质带，扬子地块与大别造山带的现今分界线是与郯庐断裂相交的太湖－马庙断裂，磨子潭－晓天断裂是大别造山带的北界，北淮阳构造带呈楔状向下插入，它与华北地块的分界是肥中断裂。郯庐断裂在中、上地壳近于直立，下地壳向西倾斜。超高压变质带的厚度为5－7km，产状向北插入到北大别块体之下，折返过程是构造就位，不是大别山的均匀抬升，折返的主运动面是水吼－五河高温剪切带。     

粘性土各向异性特性的PFC数值模拟

本文采用PFC2D来建立能够反映粘性土微观结构的模型,对不同方向的切样分别进行剪切试验,得到不同方向上剪切的应力应变曲线、剪应变-体应变曲线,求得不同方向上的弹性模量、泊松比、体积模量和剪切模量4个参数,得到其变化规律。粘性土各个方向上剪切强度峰值强度基本沿竖直方向对称分布,呈现出由竖直方向到水平方向剪切的峰值强度由大到小的变化规律。     

内蒙古孟恩陶勒盖银铅锌矿床地质特征及找矿标志

孟恩陶勒盖大型银铅锌矿产于晚二叠世花岗岩杂岩体中心部位,矿床的主要容矿构造为一组沿东西向或近东西向展布向东收敛的脆性断裂带.成矿作用大致经历了4个阶段,形成了44条脉状矿体,按容矿构造分布划分为上、中、下3个矿脉群,其中主矿体9条,较大分支矿体9条,主矿体上下盘小矿体26条.矿床自下至上,具锌矿石-银铅锌矿石-银铅矿石的明显分带性.工业矿物主要为闪锌矿、方铅矿、深红银矿、黑硫银锡矿、自然银,主要有益组分为锌、铅、银,主要伴生有益组分有铟、镉、镓、铜、锡、金.矿床成因初步认为是裂隙充填脉状银铅锌多金属中温热液型,找矿标志明显.     

饱和黄土孔压增长模式与液化机理试验研究

通过室内饱和原状黄土液化试验研究，探讨了孔压增长规律，并从微观结构角度研究了黄土液化机理。研究结果表明：未湿陷饱和黄土结构是一种介稳结构，在地震作用下，介稳结构遭到破坏，塌发和剪缩共同作用造成黄土较大的收缩体积应变并引起孔隙水压力迅速上升。提出的修正A型曲线方程可以用来拟合孔压曲线，拟合参数β隐含了动应力的大小对孔压增长的贡献，而体应变v则反映了湿陷分量对孔压的影响，两者不同组合决定曲线形态丰满程度。液体机理较为合理地解释了塔吉克和海原黄土在近乎平坦的缓坡上形成的泥流。     

薄层水流速度测量系统的研究

根据水流影响电解质扩散和其导电特性的分析,结合电解质脉冲在水流中迁移的数学模型,设计了薄层水流速度测试系统。用Visual Basic语言编写了操作系统,实现了数据采集、参数计算和分析自动化。实验和模拟结果表明,模拟水槽实验中用流量法测量的流速和电解质扩散法测量的水流速度误差很小,说明用此系统测量浅层水流的流速是可行的。     

Land Cover Status in the Koshi River Basin,Central Himalayas

The Koshi River Basin is in the middle of the Himalayas, a tributary of the Ganges River and a very important cross-border watershed. Across the basin there are large changes in altitude, habitat complexity, ecosystem integrity, land cover diversity and regional difference and this area is sensitive to global climate change. Based on Landsat TM images, vegetation mapping, field investigations and 3S technology, we compiled high-precision land cover data for the Koshi River Basin and analyzed current land cover characteristics. We found that from source to downstream, land cover in the Koshi River Basin in 2010 was composed of water body (glacier), bare land, sparse vegetation, grassland, wetland, shrubland, forest, cropland, water body (river or lake) and built-up areas. Among them, grassland, forest, bare land and cropland are the main types, accounting for 25.83%, 21.19%, 19.31% and 15.09% of the basin’s area respectively. The composition and structure of the Koshi River Basin land cover types are different between southern and northern slopes. The north slope is dominated by grassland, bare land and glacier; forest, bare land and glacier are mainly found on northern slopes. Northern slopes contain nearly seven times more grassland than southern slopes; while 97.13% of forest is located on southern slopes. Grassland area on northern slope is 6.67 times than on southern slope. The vertical distribution of major land cover types has obvious zonal characteristics. Land cover types from low to high altitudes are cropland, forest, Shrubland and mixed cropland, grassland, sparse vegetation, bare land and water bodies. These results provide a scientific basis for the study of land use and cover change in a critical region and will inform ecosystem protection, sustainability and management in this and other alpine transboundary basins.     

黄河三角洲地区地热资源及其开发利用前景初析

黄河三角洲地区蕴含着丰富的中低温地热,为2000m以浅经济型地热资源,经计算,全区地热资源总量折合标准煤相当于125×10~8t,其中仅地下热水总储存量就达到4570×10~8 m~3,可开采储量超过750×10~8 m~3,至少可以开采100a。如果形成以东营、河口、孤岛、广饶为中心的4个大面积系统的开发利用体系,并注重地热资源的综合利用和梯级利用,对于缓解能源紧张、促进经济的可持续发展等方面具有重要的意义。     

Comparative studies on carbon origin of dawsonite between Hailaer Basin in China and Bowen-Gunnedah-Sydney basin system in Australia

Dawsonite, NaAlCO3(OH)2, is widespread as a cement, replacement and cavity filling in Hailaer Basin in China and Bowen-Gunnedah-Sydney (BGS) basin system in Australia. The origin of dawsonite is emphatically contrasted and analyzed through stable isotopic composition. Dawsonite δ13C values ranging from -4.0×10-3 to 4.1×10-3 are remarkably consistent through the BGS basin system. The calculated δ13C values of CO2 gas in isotopic equilibrium with dawsonite range from -11.3×10-3 to -4.6×10-3. These values indicate carbon of dawsonite came from inorganic CO2 gas accompanied by magmatic activity. In Hailaer Basin, the Dawsonite δ13C values ranging from -4.64×10-3 to 2.12×10-3 are also consistent. The calculated δ13C values of CO2 gas in isotopic equilibrium with dawsonite range from -11.82×10-3 to -5.11×10-3. According to the coincidence of dawsonite-bearing well and CO2 gas well with mantle source,lying along deep fracture within or adjacent to Yanshanian granite,it is concluded that CO2 gas forming dawsonite is derived from mantle related to magmatic process during the Yanshanian. A little biologic origin carbon owing to petroleum charging intervened when dawsonite formed.     

兴国县土壤侵蚀变化的遥感监测与分析

兴国县是南方红壤丘陵区水土流失最严重的地区之一,近20年的综合治理成效显著。为分析该时期县域内水土流失的变化趋势,并掌握其目前的水土流失状况,本文选用1987、1994和2000年的TM影像,采用基于NDVI 的动态监测和影像分类相结合的方法.对江西兴国县近20年水土流失的情况进行分析,定性与定量地反映兴国县水土流失的时空变化趋势,并结合地形因素进行交叉分析,获取水土流失的空间分布规律。兴国县水土流失变化分析结果表明:在水土流失面积方面,这3年中均呈减少趋势;在空间分布上,中南部和东部部分地区流失强度下降幅度较大,强度明显加剧的区域较少,除西南部的部分地区外,仅在县境边缘有零星分布。目前,水土流失主要分布在海拔500m以下和坡度20°以下的地区。