辽河滩海地区古近系层序地层特征及控砂、控藏作用

运用层序地层学原理,对辽河研究区滩海地区古近系主要构造沉积旋回和关键层序界面特征进行分析,划分出4个二级层序和11个三级层序。结果显示:古近系层序的发育特征主要受构造活动的性质、强度及沉积旋回控制,二级层序界面为构造格局、沉积环境转换界面,控制沉积体系和相类型;三级层序界面为层序叠加样式或沉积环境转换面,控制层序内的体系域特征和演化。平面上,砂体分布受古地貌、坡折带性质和规模控制;纵向上,砂体发育受不同级次的沉积旋回或体系域控制。储盖组合分析,表明,二级层序和最大区域湖泛面控制成藏组合,三级层序及体系域控制油气层纵向分布。     

非地震方法在内蒙古地区乌兰盖盆地的应用

乌兰盖盆地属于松辽外围中新生代火山岩覆盖区,利用重力、磁力和大地电磁测深等非地震物探方法调查潜在沉积盆地分布和构造格架,为油气资源潜力评价提供依据。在充分研究盆地岩石地层物性特征的基础上,根据重、磁、电各方法的优势,采用互约束反演技术,开展综合研究,解释推断了盆地白垩系巴彦花群、侏罗系地层的分布形态及构造格架,指出乌兰盖断陷盆地具有很好的找油气前景。     

含有不整合面的钻井剖面中酸解烃的垂向分布规律

系统测量了不同时代、不同埋深的不整合面钻井剖面中酸解烃的分布,发现不整合面之下发育有总烃、甲烷浓度低而大分子烃类相对富集的烃类异常带,分析认为此异常带是风化脱气作用形成的脱气带,其厚度与下伏地层成岩程度有关。该发现对评价含油气盆地剥蚀与气藏保存、破坏的关系,不整合面对油气运聚的影响等有重要意义,也为解决剥蚀量恢复问题提供了新的科学线索。     

广东中山地区土壤氡浓度填图研究

为了研究区域土壤氡填图的方法,利用RAD7电子测氡仪和RADON-JOK土壤气体渗透率仪在广东省中山市进行了面积为1 800 km2的测量工作,有效测点数为67个。中山市的平均土壤氡浓度为(100.41±154.64)kBq/m3;最大值和最小值分别为0.74 kBq/m3和1 199.24 kBq/m3。土壤气体渗透率测量结果表明,在风化花岗岩地区,高渗透率和中渗透率占优势;而第四纪沉积物地区大部分土壤气体渗透率较低。基于此,结合研究区土壤氡浓度和土壤气体渗透率,对研究区土壤氡风险进行了分级评价。为土壤氡风险分级的方法研究提供了有参考价值的研究实例。     

Control Factors and Diversities of Phase State of Oil and Gas Pools in the Kuqa Petroleum System

Based on the analysis of the hydrocarbon geochemical characteristics in the Kuqa petroleum system of the Tarim Basin, this study discusses the causes and controlling factors of the phase diversities and their differences in geochemical features. According to the characteristics and differences in oil and gas phase, the petroleum system can be divided into five categories: oil reservoir, wet gas reservoir, condensate gas-rich reservoir, condensate gas-poor reservoir and dry gas reservoir. The causes for the diversities in oil and gas phases include diversities of the sources of parent material, maturity of natural gas and the process of hydrocarbon accumulation of different hydrocarbon phases. On the whole, the Jurassic and Triassic terrestrial source rocks are the main sources for the hydrocarbon in the Kuqa Depression. The small differences in parent material may cause diversities in oil and gas amount, but the impact is small. The differences in oil and gas phase are mainly affected by maturity and the accumulation process, which closely relates with each other. Oil and gas at different thermal evolution stage can be captured in different accumulation process.     

Seismic Technique for Studying Sedimentary Layer: Bohai Basin as an Example

The upper tertiary to quaternary is the main target layer for oil and gas exploitation in Mainland China, especially crude oil production in the Bohai Basin accounts for approximately 40% of China’s crude oil production. Therefore, a study of the Upper Tertiary to Quaternary has important significance for science and practical applications. In this study, using the receiver function method, Ps and later phase extraction, the sedimentary thickness and an accurate estimate of velocity ratio can be obtained. The technique is simple, its calculation results are unique, and it can be applied to a study of the sedimentary layer. The technique is promising for oil and gas exploration.     

Origin of CO2 gas from the north depression of the middle fault zone in the Hailar-Tamtsag Basin and natural gas in nearby depressions

Natural gas pools with the high contents of CO2 were discovered during exploring the middle fault zone of the Hailar-Tamtsag Basin. So far this kind of gas reservoir with CO2 with characteristics of carbon isotope is spe-cial. The stable carbon isotope of CO2 in the study area is relatively light with δ13 CCO2 values ranging from -13.1‰ to -8.2‰. The 40Ar/36Ar values of associated argon gas range from 916 to 996, with R/Ra of 1.20-1.26. Based on comprehensive analysis, it is believed that the CO2 gas in this study area is of crust mantle source.     

Fault Systems and their Control of Deep Gas Accumulations in Xujiaweizi Area

A study of faults and their control of deep gas accumulations has been made on the basis of dividing fault systems in the Xujiaweizi area. The study indicates two sets of fault systems are developed vertically in the Xujiaweizi area, including a lower fault system and an upper fault system. Formed in the period of the Huoshiling Formation to Yingcheng Formation, the lower fault system consists of five fault systems including Xuxi strike-slip extensional fault system, NE-trending extensional fault system, near-EW-trending regulating fault system, Xuzhong strike-slip fault system and Xudong strike-slip fault system. Formed in the period of Qingshankou Formation to Yaojia Formation, the upper fault system was affected mainly by the boundary conditions of the lower fault system, and thus plenty of multi-directionally distributed dense fault zones were formed in the T2 reflection horizon. The Xuxi fault controlled the formation and distribution of Shahezi coal-measure source rocks, and Xuzhong and Xudong faults controlled the formation and distribution of volcanic reservoirs of Y1 Member and Y3 Member, respectively. In the forming period of the upper fault system, the Xuzhong fault was of successive strong activities and directly connected gas source rock reservoirs and volcanic reservoirs, so it is a strongly-charged direct gas source fault. The volcanic reservoir development zones of good physical properties that may be found near the Xuzhong fault are the favorable target zones for the next exploration of deep gas accumulations in Xujiaweizi area.     

Estimation of viscoelastic attenuation of real seismic data by use of ray tracing software: Application to the detection of gas hydrates and free gas

Analysis of P wave velocity profiles and seismic data recorded over the 2002 Hydratech cruise conducted in the Storegga region, North of Norway, has shown the existence of anomalies (a velocity decrease) in some layers of the medium. An elastic propagation model is not sufficient to explain clearly these anomalies, since the viscoelastic attenuation, represented by the quality factor Q_P, is sensitive to physical phenomena of geological media. The combination of the quality factor profile with the velocity profile leads to realistic explanations of these anomalies. In this article, we explain the procedure which we developed for determining the Q_P profile from the P wave velocity profile and the seismic data recorded during Hydratech cruise. Both the Q_P and velocity profiles indicate anomalies in the same layers. Based on previous studies, we interpret that these anomalies are being due to existence of gas hydrates and free gas within these layers.     

山东东营凹陷新近系地层水化学场特征及油气意义*

为揭示中国东部新生代浅部地层水化学场响应及油气意义,在东营凹陷新近系试油资料统计分析的基础上,对东营凹陷新近系的水化学场特征进行了研究。结果表明,与古近系沙河街组三段与四段封闭性滞留型水化学场特征明显不同,新近系馆陶组和明化镇组总体以低矿化度的NaHCO₃型地层水为主体（矿化度小于5 g/L）;其水化学剖面宏观上具有一定的分带性,大致可以划分为3种水文环境：强开放性水文流畅带(0～0.7km)、弱开放性水文阻滞过渡带(0.7～1.1km)和相对封闭性水文迟缓带(＞1.1km);在不同的水化学作用带,水岩作用和地层水矿化度、离子和离子参数具有不同的响应;东营凹陷新近系Ca相对海水富集(Ca_excess)和Na相对海水亏损(Na_deficient)的定量关系Ca_excess≤0.2367Na_deficient-0.6261,显示出明显的钠亏损特征,钙富集量也远低于世界盆地流体线(Basin Fluid Line,BFL;Davisson,1996)所代表的富集量,与同凹陷古近系沙三、沙四段封闭性水文地质系统中钠相对富集特征也明显不同,反映了地层水蒸发浓缩作用弱及与地表水交替活动强烈的水文地质作用特征;地层水化学场的分布影响了原油密度和天然气的分布规律,使得东营凹陷新近系原油密度与天然气相对密度在剖面上的分布规律与地层水分有良好的一致性。