西湖凹陷平北地区烃源岩特征及生排烃史

为了综合确定平北地区的主力烃源岩,深化其油气成藏动力学过程研究,在烃源岩分布特征及有机质丰度、类型和成熟度分析的基础上,应用舍油气盆地数值模拟技术,定量恢复了研究区主要烃源岩层系的生排烃历史。研究表明,平北地区主要发育始新统平湖组、渐新统花港组两套烃源岩系,其中平湖组暗色泥岩为主力烃源岩,具较高的有机质丰度、成熟度、生排烃强度与排烃效率;以平湖组为源岩的油气系统应是本区油气勘探的主要目标。     

西湖凹陷平湖组(E_2~(2—3))半咸水有孔虫群特征分析及指相意义

西湖凹陷于胡组地层沉积于海陆过渡相背景。本文侧重分析平湖组地层中出现的半咸水有孔虫群的若干特征,讨论了半咸水有孔虫群的生态环境。根据古生物组台的变化,提出了平湖组沉积环境演化的三个发展阶段。     

东海西湖凹陷春晓构造各井区含油气性特征

春晓构造是近年来东海油气勘探与开发的重点靶区之一，目前开发工作已准备就续。该区现有钻井5口，但测试结果各井差异较大。如何评价其含油气性特征？本文应用测井、地震和试油等资料进行了综合分析，并提出了春晓构造上的另一个有利于油气聚集和保存的区块－－春晓构造南高点断层上盘。     

东营凹陷下第三系深部碎屑岩储层次生孔隙垂向分布及成因分析

东营凹陷下第三系埋深大于 30 0 0 m的深部碎屑岩储层普遍发育 2～ 4个次生孔隙带 ,Φ=10 %～ 30 % ,K=0 .1× 10 - 3μm2～ 30× 10 - 3μm2 ,为中孔低渗低孔低渗油气储层。综合有机质热演化过程、成岩作用和构造断裂等分析 ,认为东营凹陷埋深大于 30 0 0m碎屑岩地层中 ,第一、二个次生孔隙带埋深在 30 0 0 m～ 390 0 m之间 ,其形成主要与有机质成熟过程释放有机酸对长石等颗粒的溶解有密切关系 ,在深大断裂附近储层同时受到大气淡水的影响 ,而深陷带包裹于暗色泥岩中的浊积砂岩的次生孔隙发育情况还与泥质岩异常压力带有关 ;第三个次生孔隙带埋深一般为 390 0 m～ 430 0 m,主要成因于粘土矿物转化造成的还原环境 ,同时受到硫酸盐热化学氧化还原反应的影响。这三个次生孔隙发育带对储集油气有效。第四个孔隙发育带埋深在 470 0 m以下 ,主要是构造成因的微裂缝 ,较难成为有效的油气储层。     

临清坳陷德南洼陷含油气性的流体包裹体分析

应用流体包裹体观察和激光拉曼探针等微观技术对临清坳陷东北部的德南洼陷流体包裹体特征及成分、压力等物理化学条件的研究表明,研究区共有6种类型的包裹体:单相盐水包裹体、富液相包裹体、富气相包裹体、含液态CO2三相包裹体、富液态烃有机包裹体、富气态烃有机包裹体,其中富液态烃有机包裹体的均一温度为100～140°C的较多.包裹体的液相成分主要为H2O和Cl-,气相成分主要为CO2、CH4以及微量的C2H6等,包裹体成分研究结果表明在古近系和新近系中主要为未成熟-低成熟的液态烃流体活动;在古生界及部分上部层段中主要为成熟、高成熟的气态烃流体活动.根据盐水溶液包裹体的均一温度和冷冻温度计算得出研究区的流体压力为10～95 MPa,其中,在烃类流体大量排出运移时期经历过压力由突破到释放的过程;初步评价了区内的油气有利远景区.     

喀什凹陷构造演化与砂岩型铀成矿关系

运用构造地质学与现代水成铀矿理论,分析喀什凹陷的构造特征与构造演化过程,并研究构造演化与铀成矿的关系,认为喀什凹陷作为一个相对独立的次级构造单元,经历了中新生代以来的多次扩张拗陷和被动挤压上隆的构造演化过程,为砂岩型铀成矿创造了条件,并决定砂岩型铀矿床的形成、改造与保存.晚三叠—中侏罗世扩张拗陷,沉积巨厚含煤碎屑岩建造,形成初始铀源;晚侏罗世挤压上隆,沿山前遭受风化剥蚀,形成古层间氧化带和铀矿化;早白垩—渐新世快速沉降,沉积巨厚层陆相与海相碎屑岩,使古层间氧化带和铀矿化得以保存;渐新世以来大规模上隆,沿山前快速剥蚀,破坏了早期的铀矿化,铀元素重新分配.表明以层间氧化带砂岩型铀矿化在中下侏罗统含煤碎屑岩建造中不甚发育,或者说不可能形成较大的层间氧化带或铀矿床,而下白垩统则形成了与油气次生还原作用有关的铀矿床,如巴什布拉克矿床.     

QUATERNARY FOLDING OF THE XIHU ANTICLINE BELT ALONG FORELAND BASIN OF NORTH TIANSHAN

Tianshan is one of the longest and most active intracontinental orogenic belts in the world. Due to the collision between Indian and Eurasian plates since Cenozoic, the Tianshan has been suffering from intense compression, shortening and uplifting. With the continuous extension of deformation to the foreland direction, a series of active reverse fault fold belts have been formed. The Xihu anticline is the fourth row of active fold reverse fault zone on the leading edge of the north Tianshan foreland basin. For the north Tianshan Mountains, predecessors have carried out a lot of research on the activity of the second and third rows of the active fold-reverse faults, and achieved fruitful results. But there is no systematic study on the Quaternary activities of the Xihu anticline zone. How is the structural belt distributed in space?What are the geometric and kinematic characteristics?What are the fold types and growth mechanism?How does the deformation amount and characteristics of anticline change?In view of these problems, we chose Xihu anticline as the research object. Through the analysis of surface geology, topography and geomorphology and the interpretation of seismic reflection profile across the anticline, we studied the geometry, kinematic characteristics, fold type and growth mechanism of the structural belt, and calculated the shortening, uplift and interlayer strain of the anticline by area depth strain analysis.
In this paper, by interpreting the five seismic reflection profiles across the anticline belt, and combining the characteristics of surface geology and geomorphology, we studied the types, growth mechanism, geometry and kinematics characteristics, and deformation amount of the fold. The deformation length of Xihu anticline is more than 47km from west to east, in which the hidden length is more than 14km. The maximum deformation width of the exposed area is 8.5km. The Xihu anticline is characterized by small surface deformation, simple structural style and symmetrical occurrence. The interpretation of seismic reflection profile shows that the deep structural style of the anticline is relatively complex. In addition to the continuous development of a series of secondary faults in the interior of Xihu anticline, an anticline with small deformation amplitude(Xihubei anticline)is continuously developed in the north of Xihu anticline. The terrain high point of Xihu anticline is located about 12km west of Kuitun River. The deformation amplitude decreases rapidly to the east and decreases slowly to the west, which is consistent with the interpretation results of seismic reflection profile and the calculation results of shortening. The Xihu anticline is a detachment fold with the growth type of limb rotation. The deformation of Xihu anticline is calculated by area depth strain analysis method. The shortening of five seismic reflection sections A, B, C, D and E is(650±70) m, (1 070±70) m, (780±50) m, (200±40) m and(130±30) m, respectively. The shortening amount is the largest near the seismic reflection profile B of the anticline, and decreases gradually along the strike to the east and west ends of the anticline, with a more rapidly decrease to the east, which indicates that the topographic high point is also a structural high point. The excess area caused by the inflow of external material or outflow of internal matter is between -0.34km² to 0.56km². The average shortening of the Xihubei anticline is between(60±10) m and(130±40) m, and the excess area caused by the inflow of external material is between 0.50km² and 0.74km². The initial locations of the growth strata at the east part is about 1.9~2.0km underground, and the initial location of the growth strata at the west part is about 3.7km underground. We can see the strata overlying the Xihu anticline at 3.3km under ground, the strata above are basically not deformed, indicating that this section of the anticline is no longer active.     

西湖凹陷西次凹古近系花港组—平湖组深层油气成藏过程

西湖凹陷西次凹古近系花港组和平湖组深层油气资源丰富，是东海陆架盆地勘探开发新领域，受储层差异致密化影响，油气成藏机理复杂。为了厘清西次凹深层油气成藏过程，本文通过流体包裹体岩相学特征、显微测温、激光拉曼光谱、包裹体所含油气地球化学等实验分析，结合构造演化、地层埋藏史、热史等，开展了系统的储层特征、油气成藏期次、成藏过程研究。结果表明，花港组深层（>4000 m）和平湖组储层均已致密化，溶蚀孔隙是主要的储集孔隙类型；花港组和平湖组均发育两期油气包裹体，早期含油包裹体较多，晚期以天然气包裹体为主，成藏时间分别为龙井运动期和冲绳运动期，以晚期天然气成藏最为关键。包裹体中油气地球化学特征类似，反映生烃母质以高等植物生源为主，低等生物为辅，与平湖组煤系烃源岩特征一致。冲绳运动叠加平湖组生气增压是晚期天然气成藏的主要动力，此时H10段及以上储层未致密化。根据储层致密化与成藏时序匹配关系可将西次凹M构造深层油气藏类型划分为常规型、先成藏后致密型、先致密后成藏型和边成藏边致密型4种。本文成果可为研究区下一步致密砂岩气的勘探开发部署提供重要的理论依据。     

板桥凹陷钱圈地区沙河街组沉积及砂体展布特征

板桥凹陷钱圈地区沙河街组物源主要来自北部陡坡带增幅台地区和南部北大港潜山地区,在研究区北部陡坡带形成了扇三角洲沉积,在南部缓坡带形成了辫状河三角洲沉积。利用层序地层学和地震沉积学的研究思路和方法,在波阻抗数据体的基础上采用地层切片技术,在等时层序地层格架内结合单井岩-电关系,对三角洲体系砂体的展布特征进行了分析。研究结果表明:①南部缓坡带沙三上亚段沉积时期,物源主要来自北大港潜山地区,辫状河三角洲的砂体呈进积特征,展布范围逐渐变大,反映湖盆基准面下降的特征,在沙二段沉积时期,辫状河三角洲沉积物源来自增幅台和北大港潜山2个地区;陡坡带沙二段至沙一上亚段沉积时期,扇三角洲砂体呈退积特征,砂体展布范围逐渐变小,反映湖盆基准面上升的特征;②以地震波阻抗数据体为基础的地层切片技术可以清晰地刻画三角洲沉积体系的砂体沉积相带平面展布,砂体预测结果得到了钻井资料的进一步证实。     

南黄海盆地南五凹阜宁组“广湖咸水”烃源岩及其油气勘探意义

通过对南五凹钻井所揭示的阜宁组进行岩性、地球化学、古生物及地震相等综合分析证实,南五凹阜宁组发育中深湖相泥质烃源岩,且该套烃源岩形成于"广湖咸水"沉积环境。"广湖"即湖盆分布广泛,中深湖相泥质烃源岩在凹陷深洼处和缓坡带均有发育,平面上面积大,纵向上厚度大,具备生成油气的物质基础。"咸水"即烃源岩形成时期湖盆受到了海侵影响,致使水体性质偏咸。南五凹与中国东部古新世—始新世期间曾遭受海侵影响的其他湖盆类似,其形成的咸化烃源岩具有"排烃早"的特征。南五凹阜宁组湖相烃源岩"广湖咸水"沉积特征对于油气勘探具有重要意义。