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1.
下扬子地区海相盆地演化及油气勘探选区评价 总被引:2,自引:0,他引:2
从晚震旦世开始至中三叠世,下扬子地区沉积了三套巨厚的海相烃源岩系(Z2-O3、C-P、T1).三套烃源岩热演化特点不同,下古生界烃源岩经历了加里东、印支-燕山期构造阶段的热演化(已达过成熟干气阶段);上古生界烃源岩基本处于生油阶段晚期;三叠系大部烃源岩处于成熟生油阶段,少数处于未成熟阶段.区内下古生界烃源岩经历了两次成油过程,即加里东运动前的盆地沉降阶段和加里东运动后晚古生代陆表海沉积阶段.海相油气储盖条件发育,配置有利,经多年油气勘探证实,下古生界油气勘探应立足于苏北地区;上古生界油气勘探除苏北地区外,尚有皖南与浙西地区.中生界海相油气勘探应集中在几个发育较好的中生代盆地,如常州、句容、无为、望江等盆地. 相似文献
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苏浙皖地区海相油气地质特征及勘探目标的选择 总被引:1,自引:0,他引:1
从晚震旦世开始至中三叠世,苏浙皖(下扬子)地区沉积了三套巨厚的海相烃源岩系,即:上震旦统一上奥陶统,石炭系-二叠系,下三叠统海相烃源岩,三套烃源岩热演化特点不同,下古生界烃源岩经历了加里东、印支-燕山期构造阶段的热演化,已达过成熟干气阶段,上古生界烃源岩基本处于生油阶段晚期;大部分三叠系烃源岩处于成熟生油阶段,少数处于未成熟阶段,区内下古生界烃源岩经历了两次成油过程,第一次发生在加里东运动前的盆地沉降阶段,第二次发生在加里东运动后晚古生代陆表海代积阶段,全区海相油气储盖条件发育,配置有利,经多年油气勘探证实,下古生界油气勘探应立足于苏北地区,上古生界油气勘探除苏北地区外,尚有皖南与浙西地区,中生界海相油气勘探应集中在区内几个发育较好的中生代盆地,如常州、句容,无为,望江盆地等。 相似文献
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根据近年来新取得的资料,结合前人的研究成果,对南黄海海域的生储盖层特征进行了综合研究。古生界、中生界海相地层为南黄海海域的主力烃源岩,从构造运动和沉积发育情况分析,将南黄海海域的古生界、中生界海相地层生成油气的成藏过程划分为三叠纪印支运动前、侏罗纪—白垩纪、古近纪和新近纪4个阶段。通过对生储盖层的特征分析,说明南黄海古生界、中生界海相地层油气资源具有开发前景。在对南黄海盆地海相中生界、古生界烃源条件和后期保存条件研究的基础上,预测了盆地内海相油气资源的有利运聚区,为南黄海海域的油气勘探及研究工作提供了依据,对我国新的海上油气开发及部署作出了贡献。 相似文献
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南黄海中部隆起中—古生界沉积相及烃源岩特征——以CSDP-2井为例 总被引:1,自引:0,他引:1
依托CSDP-2全取心井岩心及38块烃源岩样品的实测w(TOC)、w(氯仿沥青"A")、镜质体反射率、生烃潜量等一系列地化测试数据,在精确识别南黄海盆地中部隆起中—古生界沉积相类型的基础上,分析多组段、多岩相烃源岩的有机质丰度、类型和成熟度特征,并结合前人研究成果,对比该区与下扬子苏皖地区主要烃源岩的差异性,探讨南黄海盆地中—古生界油气勘探前景。结果表明:南黄海盆地在中—古生代共经历了6次较大规模的海侵-海退,由海向陆方向发育完整的浅海陆棚-障壁海岸-三角洲沉积体系且充填了浅水内陆棚、镶边碳酸盐岩台地及潮坪-泻湖和三角洲前缘等连续的沉积演化序列;海盆内栖霞组、龙潭组、大隆组和青龙组4套烃源岩品质与陆区相当,同属中等最好烃源岩级别;垂向上则以龙潭组、大隆组源岩品质最高且不乏优质烃源岩的存在,青龙组源岩品质稍低但同样有效;丰富的烃类物质基础、7套全烃、荧光高幅上升段及累计40余处油浸、油斑等直接油气显示彰显了南黄海中—古生界海相地层存在着巨大的油气勘探潜力。 相似文献
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南黄海北部盆地东北凹陷烃源岩的早期预测 总被引:4,自引:0,他引:4
烃源岩评价是沉积盆地油气地质研究的重要组成部分,尤其对油气勘探初期的战略选区与决策至关重要.南黄海北部盆地东北凹陷的油气勘探程度极低,至今尚无探井揭示烃源岩的发育特征,因此制约了凹陷的油气勘探进程.基于地质类比原理,采用与其相邻类似凹陷--北部凹陷综合对比的方法,应用层序地层、沉积相、地震相分析及含油气盆地动态数值模拟等技术,分析了东北凹陷主要烃源岩层的空间展布和生烃演化特征,并初步形成了一套适用于勘探程度低的地区烃源岩早期预测的方法技术流程.研究表明,南黄海北部盆地东北凹陷发育上白垩统泰州组主力烃源岩系,具有广阔的油气勘探前景. 相似文献
6.
中国古生界海相地层油气勘探 总被引:1,自引:0,他引:1
影响中国古生界海相油气勘探并且需要加强研究的主要问题是:保存条件的认识与有利区预测;有效烃源岩与资源潜力;储层的复杂性及其对非构造圈闭的影响。保存条件分为三个层次:含油气盆地的保存、含油气系统的保存、油气藏的保存。塔里木、四川、鄂尔多斯三大克拉通盆地是中国古生界保存较好的盆地,是海相油气勘探的战略目标区,另外还有准噶尔、楚雄等盆地。盆地斜坡相泥岩及泥状灰岩是海相油气勘探的主要烃源;海陆过渡相烃源岩发育区是重要战略方向;陆表海碳酸盐岩烃源岩区是中小油气田勘探领域。从储层条件来说,下古生界应以非砂岩岩溶储层为主要勘探对象,溶蚀不整合面广泛发育,已发现的下古生界大中型油气田仅见于碳酸盐岩溶储层;上古生界以孔隙性碎屑岩及碳酸盐岩储层为主要勘探对象,晚古生代的构造一古地理演化为这两类储层的广泛发育提供了条件。 相似文献
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8.
鄂尔多斯盆地中部地区下古生界碳酸盐岩生烃潜力探讨 总被引:4,自引:0,他引:4
下古生界高成熟-过成熟碳酸盐岩的生烃潜力一直是困扰我国海相地层油气评价和勘探的重要问题,至今尚未得到很好的解决。本采用有机岩石学和有机地球化学方法,系统剖析了鄂尔多斯盆地中部地区下古生界碳酸盐岩的基本特征及其生烃潜力。结果表明,鄂尔多斯盆地中部地区发育下古生界海相碳酸盐岩,烃源岩厚度较大,有机质丰度较低,有机质类型主要为I型和Ⅱ型,有机质热演化已达到过成熟阶段,这套烃源岩是该区重要的有效气源岩,具有较好的生烃潜力,可为中部大气田提供良好的气源条件。 相似文献
9.
内蒙古二连盆地上古生界油气勘探前景 总被引:4,自引:0,他引:4
二连盆地晚古生代海相—海陆交互相碎屑岩和碳酸盐岩沉积建造广泛发育,主体未遭受区域变质,暗色泥岩和碳酸盐岩类烃源岩发育良好。地质调查和烃源岩初步分析评价结果表明,该区发育泥鳅河组、本巴图组、阿木山组、寿山沟组、哲斯组、林西组6套烃源岩系和多套有利的生储盖组合,其中的暗色泥岩/灰岩可达到中等—好烃源岩标准,有机质类型属于Ⅱ2~Ⅲ型,热演化程度总体处于成熟—凝析油湿气阶段,具有较大的油气资源潜力,可作为二连盆地油气勘探的重要新层系。 相似文献
10.
从苏北盆地黄桥和朱家墩气田成藏特征看江汉盆地勘探前景 总被引:3,自引:0,他引:3
苏北盆地发育了“黄桥型”和“朱家墩型”两类气藏。黄桥型气藏为断裂—裂缝型复合圈闭,不受层位控制,其气源为具有晚期生烃潜力的海相烃源岩重新深埋后再次生成的烃类气和经多期次火成岩侵入和喷发产生的大量CO2。朱家墩型气藏主要是海相烃源岩深埋后二次生烃形成晚期烃源充注、向上运移到白垩系成藏,属“古生新储”型。江汉盆地的成藏条件与苏北盆地具有可对比性,其中的江陵凹陷具备形成黄桥型气藏的条件,而沔阳凹陷则具备形成朱家墩型气藏的条件。江陵凹陷与苏北黄桥气田在构造演化、储盖条件、烃源、岩浆活动等方面均具有相似性,且前者的成藏条件更显优越。沔阳凹陷与苏北盐城坳陷东南部的烃源岩基础数据具有可比性,古生界均具备多套烃源岩层,且均表现为高演化特点,晚期生烃潜力也相似,其烃源为晚期生烃的古生界和上三叠统—侏罗系。 相似文献
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《China Geology》2019,2(1):67-84
The South Yellow Sea Basin is a large sedimentary basin superimposed by the Mesozoic-Paleozoic marine sedimentary basin and the Mesozoic-Cenozoic terrestrial sedimentary basin, where no oil and gas fields have been discovered after exploration for 58 years. After the failure of oil and gas exploration in terrestrial basins, the exploration target of the South Yellow Sea Basin turned to the marine Mesozoic-Paleozoic strata. After more than ten years’ investigation and research, a lot of achievements have been obtained. The latest exploration obtained effective seismic reflection data of deep marine facies by the application of seismic exploration technology characterized by high coverage, abundant low-frequency components and strong energy source for the deep South Yellow Sea Basin. In addition, some wells drilled the Middle-Upper Paleozoic strata, with obvious oil and gas shows discovered in some horizons. The recent petroleum geological research on the South Yellow Sea Basin shows that the structure zoning of the marine residual basin has been redetermined, the basin structure has been defined, and 3 seismic reflection marker layers are traceable and correlatable in the residual thick Middle-Paleozoic strata below the continental Meso-Cenozoic strata in the South Yellow Sea Basin. Based on these, the seismic sequence of the marine sedimentary strata was established. According to the avaliable oil and gas exploration and research, the marine Mesozoic-Paleozoic oil and gas prospects of the South Yellow Sea were predicted as follows. (1) The South Yellow Sea Basin has the same sedimentary formation and evolution history during the sedimentary period of the Middle-Paleozoic marine basin with the Sichuan Basin. (2) There are 3 regional high-quality source rocks. (3) The carbonate and clastic reservoirs are developed in the Mesozoic-Paleozoic strata. (4) The three source-reservoir-cap assemblages are relatively intact. (5) The Laoshan Uplift is a prospect area for the Lower Paleozoic oil and gas, and the Wunansha Uplift is one for the marine Upper Paleozoic oil and gas. (6) The Gaoshi stable zone in the Laoshan Uplift is a favorable zone. (7) The marine Mesozoic-Paleozoic strata in the South Yellow Sea Basin has the geological conditions required to form large oil and gas fields, with remarkable oil and gas resources prospect. An urgent problem to be addressed now within the South Yellow Sea Basin is to drill parametric wells for the Lower Paleozoic strata as the target, to establish the complete stratigraphic sequence since the Paleozoic period, to obtain resource evaluation parameters, and to realize the strategic discovery and achieve breakthrough in oil and gas exploration understanding.©2019 China Geology Editorial Office. 相似文献
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Recent high-resolution airborne gravity data taken over the South Yellow Sea and its western onshore–offshore transition zone, combined with ground gravity data taken over the onshore area (Subei Basin), China, show that the South Basin of the South Yellow Sea and the Subei Basin correspond to the same gravity low anomaly. Magnetic data also support our interpretations. Both areas have similar strata, structures and hydrocarbon potential, and form a large Cenozoic terrestrial sedimentary basin controlled by the Tanlu Fault. Cenozoic terrestrial strata are well developed in the South Basin of the South Yellow Sea, and thick Meso–Paleozoic marine strata are preserved in the Central uplift area. Future hydrocarbon exploration in the South Yellow Sea should focus on the Cenozoic continental sequence, especially the Paleogene in the South Basin, as well as the Meso–Paleozoic marine rocks in the Central uplift area. The western part of the middle depression and middle and western parts of the north depression in the South Basin of the South Yellow Sea have the greatest potential for hydrocarbon accumulation. 相似文献
13.
ZHAO Zongju 《《地质学报》英文版》2007,81(5):779-797
So far,more than 150 marine oil-gas fields have been found onshore and offshore about 350. The marine source rocks are mainly Paleozoic and Mesozoic onshore whereas Tertiary offshore.Three genetic categories of oil-gas reservoirs have been defined for the marine reservoirs in China:primary reservoirs,secondary reservoirs and hydrocarbon-regeneration reservoirs.And three exploration prospects have also been suggested:(1)Primary reservoirs prospects,which are chiefly distributed in many Tertiary basins of the South China Sea(SCS),the Tertiary shelf basins of the East China Sea (ECS)and the Paleozoic of Tarim basin,Sichuan basin and Ordos basin.To explore large-middle-scale even giant oil-gas fields should chiefly be considered in this category reservoirs.These basins are the most hopeful areas to explore marine oil-gas fields in China,among which especially many Tertiary basins of the SCS should be strengthened to explore.(2)Secondary reservoirs prospects,which are mainly distributed in the Paleozoic and Mesozoic of the Tarim basin,Sichuan basin,Qiangtang basin and Chuxiong basin in western China,of which exploration potential is less than that of the primary reservoirs.(3)Hydrocarbon-regeneration reservoirs prospects,which are chiefly distributed in the Bohai Bay basin,North Jiangsu-South Yellow Sea basin,southern North China basin,Jianghan basin, South Poyang basin in eastern China and the Tarim basin in western China,of which source rocks are generally the Paleozoic.And the reservoirs formed by late-stage(always Cenozoic)secondary hydrocarbon generation of the Paleozoic source rocks should mainly be considered to explore,among which middle-small and small oil-gas fields are the chief exploration targets.As a result of higher thermal evolution of Paleozoic and Mesozoic source rocks,the marine reservoirs onshore are mainly gas fields,and so far marine oil fields have only been found in the Tarim basin.No other than establishing corresponding marine oil-gas exploration and development strategy and policy, sufficiently enhancing cognition to the particularity and complexity of China's marine petroleum geology,and applying new thoughts,new theories and new technologies,at the same time tackling some key technologies,it is possible to fast and effectually exploit and utilize the potential huge marine oil-gas resources of China. 相似文献
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下扬子地区热历史与海相烃源岩二次生烃潜力 总被引:14,自引:5,他引:9
下扬子地区是中国南方海相油气勘探的优选地区,针对中、古生界海相油气勘探提出了“二次生烃,晚期成藏”的部署思路。通过盆地热史恢复获得热流史,然后正演计算烃源岩成熟度史,再利用实验模拟二次生烃量版,计算区内4套主要海相烃源岩的二次生烃强度。结果表明:(1) 下扬子地区苏北、苏南、皖南地区具有不同的热演化史;(2) 二叠系和下三叠统烃源岩具有好的二次生烃潜力(150~300 mg/g),志留系烃源岩有一定的二次生烃潜力(约为120 mg/g),寒武系烃源岩几乎不具有二次生烃能力;(3) 平面上,苏南、皖南地区的二次生烃条件整体上不利,苏北各凹陷区4套海相烃源岩二次生烃强度明显大于苏南和皖南地区。 相似文献
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分析南黄海盆地中、古生界的盖层条件,可为该区油气地质条件研究以及后期油气资源评价提供基础。充分利用现有钻井、测井、地震等多种实际资料,在对盆地及邻区构造、地层、沉积等地质背景分析的基础上,进行了盖层条件的分析。结果表明,南黄海盆地中、古生界主要发育5套盖层,包括钻井已经钻遇的上二叠统龙潭-大隆组泥质岩、下三叠统泥灰岩和膏岩、下白垩统湖相泥质岩,以及两套经地震解释和海陆对比划分的下寒武统、下志留统泥质岩;盆地现存盖层条件的好坏是中、古生界油气藏能否得以保存的关键条件,其中下古生界整体要优于上古生界,上古生界的青岛坳陷要好于烟台坳陷,海相中生界总体较差。 相似文献
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针对南黄海盆地海相油气勘探的重大需求,在收集、整理下扬子苏、浙、皖地区地质和地化资料的基础上,依托科学钻探CSDP-2井岩心,系统对比了南黄海盆地与下扬子陆区早志留世古地理背景和沉积充填特征,进而利用一系列地化测试数据总结了南黄海盆地下志留统烃源岩特征并探讨其主控因素。研究结果表明:南黄海盆地大陆架科学钻探CSDP-2井目前已钻遇了坟头组和高家边组上部两套丰度很低的厚层、暗色(粉砂质)泥岩,其有机质类型主要为Ⅱ2型,热演化程度已整体进入过成熟阶段;受控于全球海侵事件和扬子板块构造活动的发展阶段,早志留世初期深水陆棚环境逐渐向后期的浅水陆棚环境演变,加之早期较高的初级生产力和良好的保存条件,使得下扬子区高家边组下部烃源岩的品质明显高于上部,并以底部黑色笔石页岩段有机质丰度最高。因此,南黄海盆地高家边组底部理应存在一套优质烃源岩层,可作为下一步页岩气勘探的重点层位。 相似文献
17.
强烈的燕山期造山运动使下扬子独立地块海相原型盆地和前陆盆地被改造成冲断、剥蚀严重的燕山高原,晚燕山期—喜马拉雅期太平洋板块斜向俯冲形成张裂断陷盆地叠置,最终使其成为具有由前白垩系挤压冲断体系和上白垩统—新近系伸展断-坳陷体系组成双层结构的改造型残留叠合盆地。这既造成下扬子海相古生-中生界油气地质高复杂性,又造就了残存于晚期上白垩统—新近系断-坳陷盆地下伏的海相烃源岩“二次生烃”和晚期成藏优势。各个古近纪伸展断陷往往是独立的海相烃源含油气保存单元,古近-新近系区域盖层共同构筑的沉积重建型整体封闭保存体系和具晚期混源特色的海相有效烃源是海相含油气保存单元晚期成藏的基础,时空匹配的有效成藏组合是晚期成藏的必要条件。南黄海、苏北盆地是下扬子区沉积重建型整体封闭体系最好的构造单元,也是海相烃源晚期成藏的主要场所,印支和燕山运动不整合面上下、浦口组、泰州组和阜宁组一段是海相烃源古生中储或古生新储晚期成藏的主要层位,盐城、阜宁、海安、高邮、溱潼和黄桥—如皋断陷保存单位是首选勘探靶区。 相似文献
18.
塔里木盆地油气资源的基本特征 总被引:3,自引:0,他引:3
塔里木盆地成油气地质历史条件复杂,盆地内海陆相油气、不同成藏期油气、不同成熟度以及不同保存条件的油气并存。具海相古生界及陆相中-新生界两大烃源岩系,前者以奥陶系和石炭系为最好源岩,后者以三叠系和侏罗系最佳。烃源对比结果比较全面地反映了这一特点。石炭系、三叠系、白垩系和中新统均为重要的储油层系,其储集岩类古生界主要为白云岩,次为石灰岩,中-新生界主要为砂岩。成藏类型可分为六种:古生古储、后生古储、后 相似文献
19.
《China Geology》2018,1(4):485-492
In order to make a breakthrough in Mesozoic-Paleozoic shale gas exploration in the South Yellow Sea Basin, a comparison of the preservation conditions was made within the Barnett shale gas reservoirs in the Fortworth Basin, the Jiaoshiba shale gas reservoirs in Sichuan Basin and potential shale gas reservoirs in Guizhou Province. The results show that the “Sandwich” structure is of great importance for shale gas accumulation. Therein to, the “Sandwich” structure is a kind of special reservoir-cap rock assemblage which consist of limestone or dolomite on the top, mudstone or shale layer in the middle and limestone or dolomite at the bottom. In consideration of the Mesozoic-Paleozoic in the Lower Yangtze, and Laoshan Uplift with weak Paleozoic deformation and thrust fault sealing on both flanks of the Laoshan Uplift, a conclusion can be drawn that the preservation conditions of shale gas probably developed “Sandwich” structures in the Lower Cambrian and Permian, which are key layers for the breakthrough of shale gas in the South Yellow Sea. Moreover, the preferred targets for shale gas drilling probably locate at both flanks of the Laoshan Uplift. 相似文献