西昆仑库地西北依沙克群中首次发现放射虫化石

新藏公路137km处一些克沟中自下而上发育一套由基性火山岩、火山碎屑岩及深海复理石组成的库地蛇绿岩系。     

襄樊汉江四桥大口径灌注桩成孔施工实践

介绍了使用泥浆护壁气举反循环回转钻进工艺进行襄樊汉江四桥大口径嵌岩桩的施工实践。施工中采用下置双护简隔离卵石层，合理选用钻头类型(卵砾石层采用五翼合金刮刀钻头，基岩采用球齿滚刀钻头)和钻进参数(混合器沉没深度，尾管长度，孔内空气流量与压力)，摸索与总结出一套复杂地层成孔施工经验。     

宁芜盆地火山-次火山岩的锆石U-Pb年龄、Hf同位素组成及其地质意义

宁芜火山盆地是长江中下游重要的火山盆地之一,在盆地内自下而上依次发育龙王山组、大王山组、姑山组和娘娘山组火山岩和若干个同源次火山岩或小侵入岩体。本文对宁芜盆地火山-次火山岩进行了详细的锆石U-Pb年龄和Hf同位素地球化学研究。研究结果表明,大王山组粗安岩锆石U-Pb年龄为130.3±0.9Ma,姑山组两个粗安岩锆石U-Pb年龄分别为128.2±1.3Ma和128.5±1.8Ma,另外三个侵入岩年龄分别为127.1±1.2Ma、128.3±0.6Ma和128.2±1.0Ma,均为早白垩纪。综合前人成果,认为长江中下游地区火山盆地内火山活动的时限在135～124Ma之间,不存在侏罗纪岩浆活动。宁芜盆地火山岩和侵入岩的锆石176Hf/177Hf值在0.282502～0.282673范围内,εHf(t)变化为-6.9～-0.7,显示岩浆源自于岩石圈富集地幔部分熔融并在上升过程中受地壳物质的混染,为岩石圈伸展环境的产物。     

Experimental Study on Mechanical Properties Degradation and Acoustic Emission Characteristics of Coal Rock Caused by CO2 Injection

Geotechnical and Geological Engineering - Geological sequestration of greenhouse gases has gained extensive attentions in recent years, but the degradation law of mechanical parameters and the...     

白云岩体表生成岩裸露期古风化壳岩溶的规模

白云岩体表生成岩裸露期古风化壳岩溶对白云岩体古岩溶储渗体的形成至关重要。表生成岩裸露期古风化壳岩溶可形成地表残积层和表层之下大小不等的溶蚀空间。地表残积层与上覆盖层间可成为油气的储渗空间和通道,表层之下大小不等的溶蚀空间则可被塌积岩、冲积岩、填积岩和淀积岩充填,但其内常可保存部分孔隙,并为后来的埋藏溶解提供流体扩溶的初始空间和流体流动的通道。野外露头和井下岩心中的大量现象和事实说明,白云岩体表生成岩裸露期古风化壳的规模远小于石灰岩体。最主要原因是白云岩(石)可溶性远较石灰岩(方解石)小,同样组构的白云岩的物理力学强度亦较石灰岩小。白云岩体本身的岩性和组构、层理类型、泥质含量、构造裂隙的发育程度等都会影响裸露期古风化壳的规模。     

Effect of bedding planes on wave velocity and AE characteristics of the Longmaxi shale in China

The experimental work described in this paper was carried out in order to discover more about the effects of bedding planes on wave velocity and acoustic emission (AE) characteristics of shale. Two groups of specimens, which were collected from the Longmaxi shale outcrop in Chongqing, China and cored perpendicular and parallel to the bedding planes, were tested under uniaxial compression, and the wave velocity and AE were monitored. There were obvious differences in the acoustic characteristics of shale with different bedding plane orientations. The experimental results show that (1) the average increasing rates of P- and S-wave velocities were 39.86 and 54.41%, respectively, for the specimen with a load perpendicular to the bedding planes (Y-0). The P-wave velocity and axial strain of specimen show a marked logarithmic relationship. However, the average increasing rates of P- and S-wave velocities were 5.44 and 10.54%, respectively, for the specimen with a load parallel to the bedding planes (Y-90). The good linear relationship between P-wave velocity and axial strain before failure of specimen has been built. Generally, S-wave velocity was more sensitive to axial strain than P-wave velocity. (2) AE characteristics for Y-0 showed that a few signals → quiet period → stable increase → steep increase; for Y-90: quiet period → stable increase → sudden increase → sharp increase. The AE energy for two groups of specimens was concentrated on low and middle of amplitudes (45-80 dB), but the proportion of amplitudes (80–100 dB) and the total counts of AE for Y-0 was 1.95, 2.2 times as much as that for Y-90, respectively. The results preliminarily revealed the effect of bedding orientation on the wave velocity and AE properties of shale and may provide guidance for the improvement of acoustic logging and microseismic monitoring in the field.     

Data integration in characterizing a fracture-cavity reservoir,Tahe oilfield,Tarim basin,China

Fracture-cavity reservoirs can be described in terms of storage space, filling materials and distribution, however, characterizing these variables remains a challenge. In this study, a method was developed to characterize complex reservoirs by integrating outcrop, core, well log, and seismic data from the Tahe oilfield. Outcrop analogs were used to identify and qualitatively analyze the genesis of different reservoir spaces. Cores, well logs, and seismic data were used to identify different types of reservoir space in the subsurface, to describe the spatial distribution, and to establish the distribution pattern of fracture-cavity reservoirs. Clastic sediments, collapse breccia, and chemical fillings were described from the cores and used to assess porosity and permeability. On the basis of the results, a three-dimensional geological model was constructed incorporating a structural model, a reservoir space model, and a property model. Caves and fractures were the main storage spaces and seepage passages. The cave model was built using multi-point geostatistical simulation, while the fracture model was established using deterministic modeling combined with manual interpretations and ant-tracking technology.     

MC-ICP-MS高精度测定Li同位素分析方法

以不同浓度Li元素标准样品和K、Ca、Na、Mg、Fe单元素标准样品的混合溶液为研究对象,采用3根阳离子交换树脂（AG 50W X8,200~400目）填充的聚丙烯交换柱和石英交换柱对Li进行分离富集,淋洗液分别为28 mol/L HCl、015 mol/L HCl以及05 mol/L HCl 30%乙醇,淋洗液体积小,仅为38 mL。分离回收率高,均大于976%。国际标样AGV 2（相对于IRMM 016）、BHVO 2（相对于IRMM 016）和IRMM 016（相对于L SVEC）的δ7Li值分别为(513±094)‰(2σ,n=10)、(408±060)‰(2σ,n=4)和(0038±073)‰(2σ,n=10),与前人分析结果吻合,分析精度与国际同类实验室水平相当。并对比了马里兰大学同位素实验室和笔者实验室对同种岩石矿物样品的分析结果,在误差范围内具有很好的一致性。此外,对美国地质调查局提供的准标样NKT 1霞石岩（相对于IRMM 016）给出了定值,δ7Li值为(871±046)‰(2σ,n=4)。因此,本方法可用于测定天然样品的Li同位素组成。     

西藏新生代裂谷系成因的探讨

通过区域重力场的三维密度扰动成像和地震层析成像研究,我们确定西藏新生代裂谷系反映为上中地壳低密度带,延深可达到42 km;同时,青藏高原下地壳也有低密度和低地震波速的物质蠕动流。和东非大裂谷等其他裂谷带不同,西藏新生代裂谷通常是多条平行裂谷组成的裂谷系,它的形成机制也是特殊的,可称为陆—陆俯冲型裂谷系。印度板块的陆—陆俯冲造成的正交方向拉张与西藏新生代裂谷系形成密切相关。地震变形空白区和陆—陆俯冲型裂谷带空间分布之间有一定的对应关系,即裂谷带的源头指向地震变形空白区。陆—陆俯冲型裂谷系的发育过程可分为以下四个环节:①陆—陆俯冲造成前沿带的地壳破裂和地震;②地震变形空白区地应力集中;③挤压地应力向俯冲带前方发散并且转化为張应力,造成前沿带正交方向的地壳破裂和地震;④大地震后应力释放,产生的回跳继续使地壳变形,每一次地震都促使裂谷的进一步发育。青藏高原的下地壳物质蠕动流对中上地壳产生的底辟作用,也促进了西藏新生代裂谷系的形成。地壳拆离面前端上中地壳的成倍加厚使温度升高,造成下地壳流向上挤出,从而使上中地壳張裂。特提斯大洋板块俯冲下去的残块在软流圈下沉也使软流圈上涌,也导致下地壳物质蠕动和西藏新生代裂谷系的形成。