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Eight lacustrine Type I kerogen samples from the Songliao Basin were pyrolyzed using the Rock-Eval equipment, and parallel first-order reaction models including the model with a single frequency factor and a discrete distribution of activation energies (SFF model) and the model with multiple frequency factors and a discrete distribution of activation energies (MFF model) were adopted to analyze kinetic characteristics of hydrocarbon generation of the Type I kerogen samples. The results show that the MFF and SFF models can satisfactory simulate hydrocarbon generation under laboratory conditions and the Type I kerogen shows relatively concentrated activation energy distributions (activation energies of MFF model range from 190 kJ/mol to 250 kJ/mol, activation energies of SFF model range from 220 kJ/mol to 240 kJ/mol), which indicates a homogeneous chemical bond structure of the Type I kerogen. The hydrocarbon generated curves from Type I kerogen were calculated by using the two models with a linear heating rate (3.3 K/Ma). It indicates that the hydrocarbon generation potentials (reaction fractions) are underestimated by using the SFF model during the kerogen thermal degradation for the components with chemical bond of lower and higher activation energies, while this problem can be avoided by using the MFF model. The calculated temperatures for 50% transformation ratio (TR) of all samples differ by as much as 20 °C. For the SFF model, the hydrocarbon generation curve obtained by using the weighted averaged kinetic parameters and the SFF model almost includes every curve calculated by using its own kinetic parameters. While the curve obtained by using the weighted averaged kinetic parameters and the MFF model cannot include every curve for all samples, it lies at the position of the averaged curve of all samples. The application of the MFF model in Songliao Basin shows that if TR 10% is taken as the onset of hydrocarbon generation, the threshold depth of hydrocarbon generation is about 1700 m, which is consistent with other geochemical parameters, such as S1/TOC, S1/(S1 + S2) and HC/TOC. 相似文献
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金矿位于哀牢山构造变质岩带、金(贵金属)成矿带南部西侧,含金石英脉分布于小新街断裂两侧的次级构造裂隙中,矿脉严格受次级压扭性断裂控制. 相似文献
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新疆地貌区划的一个新方案 总被引:3,自引:1,他引:2
在分析总结和借鉴继承前人地貌区划工作的基础上,开展新疆地貌区划研究.首先认为地貌区划既是对地貌划分的结果,也是地貌划分的方法与过程,同时还是认识地貌特征和发现地貌规律的一种科学方法.第二,确定新疆地貌区划的主要原则为区域性原则和等级系统原则,选择自下而上的类型合并与自上而下的区域分割相结合,协调使用的区划方法.第三,在区划原则和区划方法的指导下,对新疆地貌类型分布规律进行定性与定量研究,提出基于遥感和GIS技术的新疆地貌区划新方案,将新疆分为6个地貌区、23个地貌亚区和195个地貌小区.结果表明,该地貌区划方案能够体现出新疆各地貌类型及其分布格局,并具有区划等级的系统性,地貌分区的完整性,以及区划界线的准确性等特点. 相似文献
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着重于序列衰减与余震激发,系统介绍了修改的大森公式、ETAS模型及BASS模型的最新理论研究进展及应用成果。修改的大森公式是迄今为止对序列衰减的最好描述,据此可对序列衰减特征进行定量表述。大森公式本质上是一种典型的现象统计模型,但由于其参数少、计算简单,并且确实能够反映序列衰减的总体特征,因而在实际中应用广泛。ETAS模型考虑了具有统计自相似特征的次级余震激发问题,次级余震激发强度与父地震强度有关,这在物理过程方面对大森公式进行了大大的拓展。由于考虑了次级余震的激发问题,ETAS模型不但在余震序列研究方面比修改的大森公式有了明显的进展,而且在诸如平静检测、余震群集剔除、背景地震活动评估、外因触发地震活动检测等方面也有诸多应用。BASS模型遵循修改的Bath定律,而ETAS模型遵循的是与父地震震级有关的相似率,这是BASS模型与ETAS模型的最大区别,因而相对ETAS模型而言,BASS模型是一种完全自相似的理想化模型,但目前基于BASS模型的应用研究尚不多见 相似文献
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人为动力泥沙灾害类型及其特征初步研究 总被引:7,自引:3,他引:4
人为动力泥沙灾害是人类活动无意地导致地表物质侵蚀、输移、沉积过程中的渐近或超临界现象 ,它具有独特的社会学及灾害学属性。按人为驱动力形式、灾害所在地貌部位、灾害的表现形式及具体灾害现象 ,人为动力泥沙灾害系列可划分为 :流域水系、沟道坡面、河道及平原河口海岸四个泥沙灾害类 ;各灾害类包括侵蚀型、搬运型、堆积型、复杂型及关联型五种泥沙灾害型 ;共 54个灾害种。这是一种比较综合、系统的人为动力泥沙灾害类型划分。从流水地貌、泥沙运动及灾害学相结合出发 ,人为动力泥沙灾害具有以下特征 :1地理地带基础上的加剧性特征 ;2人文环境影响下的渐变性与急变性特征 ;3盲目性驱动下的无序性特征 ;4复杂性和非线性特征等。人文环境的变化是人为动力泥沙灾害产生的主要原因。只有加强管理力度 ,提高人民的环境保护意识 ,才能控制人为泥沙灾害的发生。 相似文献
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Jiafei Xiao Jingyang He Haiying Yang Chengquan Wu Jianbin Xu Yantao Li 《Resource Geology》2019,69(3):227-248
The Datangpo‐type manganese ore deposits, which formed during the Nanhuan (Cryogenian) period and are located in northeastern Guizhou and adjacent areas, are one of the most important manganese resources in China, showing good prospecting potential. Many middle‐to‐large deposits, and even super‐large mineral deposits, have been discovered. However, the genesis of manganese ore deposits is still controversial and remains a long‐standing source of debate; there are several viewpoints including biogenesis, hydrothermal sedimentation, gravity flows, cold‐spring carbonates, etc. Geochemical data from several manganese ore deposits show that there are positive correlations between Al2O3 and TiO2, SiO2, K2O, and Na2O, and strong negative correlations between Al2O3 and CaO, MgO, and MnO in black shales and manganese ores. U, Mo, and V show distinct enrichment in black shales and inconspicuous enrichment in Mn ores. Ba and Rb show strong positive correlations with K2O in manganese ores. Cu, Ni, and Zn show clear correlations with total iron in both manganese ores and black shales. ∑REE of manganese ores has a large range with evident positive Ce anomalies and positive Eu anomalies. The Post Archean Australian Shale (PAAS) normalized rare earth element (REE) distribution patterns of manganese ores present pronounced middle rare earth element (MREE) enrichment, producing “hat‐shaped” REE plots. ∑REE of black shales is more variable compared with PAAS, and the PAAS‐normalized REE distribution patterns appear as “flat‐shaped” REE plots, lacking evident anomaly characteristics. δ13C values of carbonate in both manganese ores and the black shales show observable negative excursions. The comprehensive analysis suggests that the black shales formed in a reducing and quiet water column, while the manganese ores formed in oxic muddy seawater, which resulted from periodic transgressions. There was an oxidation–reduction cycle of manganese between the top water body and the bottom water body caused by the transgressions during the early Datangpo, which resulted in the dissolution of manganese. Through the exchange of the euphotic zone water and the bottom water, and episodic inflow of oxygenated water, the manganese in the bottom water was oxidized to Mn‐oxyhydroxides and rapidly buried along with algae. In the early diagenetic stage, Mn‐oxyhydroxides were reduced and dissolved in the anoxic pore water and then transformed into Mn‐carbonates by reacting with HCO3? from the degradation of organic matter or from seawater. In the intervals between transgressions, continuous supplies of terrigenous clastics and the high productive rates of organic matter in the euphotic zone resulted in the deposition of the black shales enriched in organic matter. 相似文献