内蒙古突泉县牤牛海地区超镁铁质岩地球化学及源区特征     

付俊彧  汪岩  钟辉  宋维民  孙巍  那福超  钱程  杨雅军  庞雪娇  江山 《吉林大学学报(地球科学版)》2017,47(4)

内蒙古突泉县牤牛海地区发育超镁铁质岩,主要岩石类型为蛇纹石化橄榄岩、辉石橄榄岩、异剥辉石橄榄岩和蛇纹岩,局部蛇纹岩中可见显微鬣刺假象结构,包括蛇纹石呈假像的柱状中空骸晶结构、鱼骨状或羽状结构。岩石化学具有高镁(w(MgO)为33.63%~39.44%)、铬(2 200×10~(-6)~17 200×10~(-6))、镍(1 900×10~(-6)~3 000×10~(-6)),高CaO/Al_2O_3(0.56~39.01,平均为7.05),低钛(w(TiO_2)为0.01%~0.02%)、低铝(w(Al2O3)为0.03%~0.36%)、低碱(w(K_2O+Na_2O)为0.03%~0.65%)特征,类似科马提岩;Mg#值(平均为87)与纯橄榄岩(86)接近;稀土元素(w(∑REE)为0.32×10~(-6)~2.79×10~(-6))明显低于大洋脊含量,轻稀土富集(LREE/HREE为2.80~16.68),Eu正异常明显(δEu为0.59~4.84);微量元素富集大离子亲石元素(LILE)Rb、Ba、Sr,亏损高场强元素(HFSE)Nb、P等。说明超镁铁质岩石岩浆源自亏损软流圈地幔,并受到俯冲流体交代作用,形成于岛弧环境。牤牛海超镁铁质岩与西部包括突泉围场、好老鹿场、超日海乌拉、梅劳特乌拉、苏尼特左旗二道井一带超镁铁质岩共同构成一条近东西向展布的超镁铁质岩(蛇绿岩)带,通过地质建造分析,认为该构造带可能为华北板块与西伯利亚板块最终缝合带。  相似文献   

全球前寒武—寒武系含油气盆地石油地质特征及成藏主控因素     

陈斐然  张颖  徐祖新  谭程  周肖肖 《吉林大学学报(地球科学版)》2017,47(4)

前寒武—寒武系油气作为我国中西部含油气盆地未来油气勘探的重要接替领域,近年来受到广泛关注。本文以阿曼和东西伯利亚盆地为例,阐述全球典型前寒武—寒武系古老含油气盆地石油地质特征及成藏主控因素,为国内前寒武—寒武系油气勘探取得进一步突破提供参考。阿曼和东西伯利亚盆地烃源岩主要发育在盆地初始裂陷作用区,受埋深及地温梯度控制,在志留纪或泥盆纪之前就已大量生油;储集层岩性以砂岩为主,分布面积广,受表生风化淋滤、胶结物溶蚀及构造裂缝改造等后期作用影响,可形成优质区域性储层;优质的区域性盖层是前寒武—寒武系古老油气藏得以保存的关键性因素,盆地膏盐岩累计厚度都超过1 000m。塔里木盆地寒武系盐下深层含油气层系,同国外古老含油气盆地相比,同样具有多套高丰度优质烃源岩生烃、厚层区域性膏盐岩封堵及长距离运移、多层系成藏特征,具有良好的油气勘探潜力。  相似文献   

Greenhouse gases abatement by catalytic dry reforming of methane to syngas over samarium oxide-supported cobalt catalyst     

B. V. Ayodele  M. R. Khan  C. K. Cheng 《International Journal of Environmental Science and Technology》2017,14(12):2769-2782

Anthropogenic activities often result in the emissions of methane (CH₄) and carbon dioxide (CO₂) which are the principal components of greenhouse gases. The mitigation of these gases to avert further occurrence of global warming has attracted a lot of research interest. In this study, the potential of greenhouse gases abatement via catalytic CO₂ (dry) reforming of methane to syngas over samarium oxide-supported cobalt (20 wt% Co/80 wt% Sm₂O₃) catalyst was investigated. The 20 wt% Co/80 wt% Sm₂O₃ material was synthesized via wet impregnation method and characterized using different instrument techniques. The methane dry reforming reaction, as well as its kinetics over the catalyst, was studied in a stainless steel fixed-bed continuous flow reactor at feed (CH₄:CO₂) ratios range of 0.1–1.0, temperature range of 923–1023 K and gas hourly space velocity (GHSV) of 30,000 h^?1. The 20 wt% Co/80 wt% Sm₂O₃ catalyst showed promising catalytic activity evident from the highest CH₄ and CO₂ conversion of ~71 and ~74% as well as the highest hydrogen (H₂) and carbon monoxide (CO) yield of ~62 and ~73%, respectively. Moreover, the methane dry reforming over the 20 wt% Co/80 wt% Sm₂O₃ catalyst produces H₂/CO ratio close to unity hence suitable for use as a chemical intermediate for synthesis of oxygenated fuels. The kinetic data obtained from the methane dry reforming were fitted to power law model. Apparent activation energies of 88.62, 80.12, 108.12 and 100.91 kJ mol^?1 were obtained for CH₄, CO₂, H₂ and CO, respectively. The characterization of the spent 20 wt% Co/80 wt% Sm₂O₃ catalyst after 4 h of time-on-stream has confirmed the presence of amorphous carbon which can easily be gasified.  相似文献   

Numerical simulation on excavation-induced damage of rock under quasi-static unloading and dynamic disturbance     

Leilei Niu  Wancheng Zhu  Zhen Cheng  Kai Guan  Tao Qin 《Environmental Earth Sciences》2017,76(17):614

During the excavation of underground opening, the rock may experience a complex loading path that includes the highly confined compression before excavation, unloading of confining stress and further disturbance of dynamic loading after excavation. By using Rock Failure Process Analysis for Dynamics (RFPA-Dynamics), the failure of rock sequentially subjected to this complex loading path is numerically simulated, in order to examine the rock failure mechanism induced by excavation. The RFPA-Dynamics is firstly used to reproduce the failure of rock under confined compression, followed by unloading of confining pressure, and it is validated against with the existing experimental observation. Then, the failure characteristics of rock specimen sequentially subjected to the quasi-static triaxial loading, unloading of confining pressure and dynamic disturbance are numerically simulated, where the effect of magnitude of axial loading and confining pressure, and duration and amplitude of the dynamic disturbance on the final failure patterns of rock are examined. The numerical results indicate that the arc-shaped spalling damage zone is prone to develop with the increase in the axial pressure and lateral pressure coefficient. As for the effect of dynamic disturbance, the contribution of duration and amplitude of dynamic disturbance on the energy input are similar, where the area of damage zone increases with the energy input into the rock specimen. In this regard, the area of the damage zone is influenced by both the magnitude of in situ stress and waveform of dynamic disturbance. This study denotes that it is of great significance to trace the complex loading path induced by excavation in order to capture the rock failure mechanism induced by underground excavation.  相似文献   

An integrated technology for gas control and green mining in deep mines based on ultra-thin seam mining     

Ting Liu  Baiquan Lin  Wei Yang  Tong Liu  Cheng Zhai 《Environmental Earth Sciences》2017,76(6):243

With the increasing demand for coal resources, coal mining has gradually entered into the deep strata of coal seams. Although the increase in mining depth improves energy security, it is associated with severe hazards, especially coal and gas outburst. Protective seam mining is an efficient method for gas control and has been widely used in major coal-producing countries. However, studies on deep ultra-thin protective seam (thickness 0.1–1 m, average thickness 0.5 m) mining and its related problems have been rarely reported. Focusing on the challenges resulting from deep mining (mining depth >1100 m) and the research gap, a coal and gas co-exploitation technique, which combines the gas control technology and green mining (including coal preparation and backfilling), has been proposed in this work. Significant benefits have been achieved in the twelfth coal mine of the Pingdingshan coalfield (study area) following the implementation of this technique. The application of the gas control technology markedly improved the gas drainage efficiency, promoted increased gas utilization, and reduced the greenhouse gas emission, providing notable economic and environmental benefits. In addition, implementation of green mining improved the coal quality, relieved the burden of the transport system, and, in particular, effectively prevented surface subsidence, thus protecting the ecological environment of the mining area, which offered significant economic, environmental, and social benefits. The practice in the twelfth coal mine could be used as a valuable example for coal mines with similar geological conditions.  相似文献   

Stress distribution characteristic analysis and control of coal and gas outburst disaster in a pressure-relief boundary area in protective layer mining     

Zhen Liu  He Yang  Weimin Cheng  Lin Xin  Guanhua Ni 《Arabian Journal of Geosciences》2017,10(16):358

Coal and gas outburst disasters in coal seams are becoming more serious as coal mines extend deeper underground in China. Furthermore, the protective coal seam mining technology featured by economic efficiency has been proven to be the most effective and widely applied method for the prevention of coal and gas outburst disasters. However, the determinations of the protective area coal and gas outburst prevention in a pressure-relief boundary area are fundamental issues that research should be focused on. The technical method for determining stress distribution in pressure-relief boundary area during protective coal seam mining is put forward in this paper. The method is based on a stress-seepage coupled relationship within a gas-containing coal seam. The method includes complex lab experiments and on-site measurements at the Qingdong Coal Mine. The final data illustrate that the permeability and vertical stress in the pressure-relief boundary area of the coal sample form a negative exponential function relationship. Additionally, the permeability of the coal sample within the abovementioned area is significantly different compared with that located at the center of the pressure-relief area. In the pressure-relief boundary area, the gas pressure distribution gradient is 0.0375 MPa/m, while the vertical stress distribution gradient registers 0.56 MPa/m. Under this condition, coal and gas outburst disasters are prone to be triggered. Therefore, effective precautions against coal and gas outburst disasters can be put forward in accordance with stress distribution characteristics within the abovementioned “boundary area.”  相似文献   

Submersion simulation in a typical debris flow watershed of Jianzhuangchuan catchment,Loess Plateau     

Jianbing Peng  Aidi Huo  Yuxiang Cheng  Jian Dang  Hong Wei  Xiaofan Wang  Chongyi Li 《Environmental Earth Sciences》2017,76(13):462

Debris flow is one of the most serious and frequent geological disasters that occur in the Loess Plateau. The outbreak of a debris flow is sudden, ferocious, swift, and destructive. The characteristics and mechanism of debris flow were explored in this study via survey, numerical simulation, and simulation analysis in a Loess Plateau area (Huangling County, Shaanxi Province, China). Numerical models and formulas corresponding to the occurrence and movement mechanism were established based on the HEC-RAS, HEC-GeoRAS, and SWAT results. The range of debris flow deposition was determined through capturing the debris flow free surface. A hydrological model and critical rainfall threshold were determined in order to provide technical support for debris flow forecasting in the Loess Plateau. The results suggest that 10-year floods do not submerge any portion of the basin. One village area was affected by the 100-year flood (total area of 0.648 km²) while four villages areas were submerged by the 1000-year flood (total area of 1.39 km²). The method presented here may provide a reliable scientific basis for mitigating loss due to debris flow hazards.  相似文献   

地震岩相识别概率表征方法   总被引：4，自引：3，他引：1       下载免费PDF全文

袁成  李景叶  陈小宏 《地球物理学报》2016,59(1):287-298

储层岩相分布信息是油藏表征的重要参数,基于地震资料开展储层岩相识别通常具有较强的不确定性.传统方法仅获取唯一确定的岩相分布信息,无法解析反演结果的不确定性,增加了油藏评价的风险.本文引入基于概率统计的多步骤反演方法开展地震岩相识别,通过在其各个环节建立输入与输出参量的统计关系,然后融合各环节概率统计信息构建地震数据与储层岩相的条件概率关系以反演岩相分布概率信息.与传统方法相比,文中方法通过概率统计关系表征了地震岩相识别各个环节中地球物理响应关系的不确定性,并通过融合各环节概率信息实现了不确定性传递的数值模拟,最终反演的岩相概率信息能够客观准确地反映地震岩相识别结果的不确定性,为油藏评价及储层建模提供了重要参考信息.模型数据和实际资料应用验证了方法的有效性.  相似文献   

Identifying gravity anomalies caused by granitic intrusions in Nanling mineral district,China: a multifractal perspective          下载免费PDF全文

Qiuming Cheng  Renguang Zuo  Tianyou Liu  Yufei Xi 《Geophysical Prospecting》2015,63(1):256-270

Several power‐law relationships of geophysical potential fields have been discussed recently with renewed interests, including field value–distance () and power spectrum–wavenumber () models. The singularity mapping technique based on the density/concentration–area (C–A) power‐law model is applied to act as a high‐pass filter for extracting gravity and magnetic anomalies regardless of the background value and to detect the edges of gravity or magnetic sources with the advantage of scale invariance. This is demonstrated on a synthetic example and a case study from the Nanling mineral district, Southern China. Compared with the analytic signal amplitude and total horizontal gradient methods, the singularity mapping technique provides more distinct and less noisy boundaries of granites than traditional methods. Additionally, it is efficient for enhancing and outlining weak anomalies caused by concealed granitic intrusions, indicating that the singularity method based on multifractal analysis is a potential tool to process gravity and magnetic data.  相似文献   

长江经济带开发与保护空间格局构建及其分析路径   总被引：3，自引：0，他引：3  

陈雯  孙伟  吴加伟  陈诚  闫东升 《地理科学进展》2015,34(11):1388-1397

长江流域经济—社会—生态系统完整,是中国国土空间开发最重要的东西轴线,在区域发展总体格局中具有重要战略地位。当下,为应对全球经贸格局重组、国家与区域经济社会转型以及资源环境约束趋紧等新形势,国家提出依托长江黄金水道,构建横贯东西、辐射南北、通江达海、经济高效、生态良好的中国经济新支撑带,这就要求长江经济带形成人口资源环境协调的均衡化开发与保护格局。本文基于“点—轴”、分区式与多中心网络式等空间组织结构,明确空间格局的推演逻辑与思路。进而,在区域差异性分析与空间开发适宜性评价基础上,认为长江经济带需重点构建以“一轴两翼,三区六廊”为主体的开发格局、以“六大片区”为主体的农业发展格局、以“五大屏障”为主体的生态安全格局,并提出不同区域差异化发展导向、路径与制度建议,以及今后长江经济带空间结构需进一步研究的主要科学问题。  相似文献