中阿拉伯盆地油气分布规律和主控因素研究

中阿拉伯盆地是中东油气区油气资源最为富集的盆地。本文以该盆地油气田的最新资料为基础,结合盆地构造-沉积演化过程,应用石油地质综合研究方法,探讨该盆地油气的时空分布特征及主控因素。中阿拉伯盆地内发育3个主要含油气系统:下志留统含油气系统、侏罗系复合含油气系统和白垩系复合含油气系统。中阿拉伯盆地油气的层系分布表现为"下气上油",上二叠统—下三叠统储集层富集了盆地内78.9%的天然气可采储量和83.7%的凝析油可采储量,而上侏罗统—下白垩统则富集了盆地内81.9%的石油可采储量。区域上,中阿拉伯盆地的石油储量主要聚集于西海湾坳陷、迪布蒂巴赫(Dibdibah)坳陷、盖瓦尔(Ghawar)凸起和安纳拉(An N`ala)凸起,天然气和凝析油则在卡塔尔凸起更为富集。中阿拉伯盆地的油气分布主要受3个因素控制:优质区域盖层控制了油气的层系分布,主力烃源岩展布和优势运移路径控制了油气的区域分布,基底断裂和盐运动构成的圈闭控制了油气藏的形成与富集。     

地球内部物质物性的原位高温高压研究：大体积压机与同步辐射源的结合

四川盆地是一个大型复合含气为主、含油为辅的叠合盆地。多旋回的沉积演化过程,孕育了多套海相、陆相烃源岩,且不同区域发育不同成因类型的烃源岩。目前下寒武统、志留系、下二叠统、上二叠统和上三叠统五套主要烃源岩均已进入高演化阶段,并以成气为主。由于多阶成烃、混源聚集和后期遭受TSR次生蚀变等成藏过程的复杂性使得天然气组分较干、碳同位素组成复杂,常规方法进行气源对比较困难。文中在对四川盆地沉积演化背景分析的基础上,通过对有效烃源岩发育特征和分布规律的探讨,分区域进行了气藏的分析,特别是对天然气组分、非烃组成(H2S、CO2、N2等)和碳同位素等资料综合研究的基础上,基本确定了各区块各含气层系的主力源岩。认为川东主力产层石炭系、三叠系和二叠系的气源分别为志留系、上二叠统龙潭组和下二叠统;川南气区震旦系灯影组、寒武系、二叠系和三叠系产层的气源分别主要来自下寒武统,上、下二叠系源岩;川西气区侏罗系和三叠系须家河组主产层的气源主要来自三叠系须家河组煤系烃源岩,下二叠统和嘉陵江组产层气源则可能主要来自二叠系;川中主要为产油区,下侏罗统自流井群原油应来自侏罗系源岩,浅部层系气源为上三叠统须家河组的陆相烃源岩,深部气藏则为寒武系烃源岩。由于川东北部烃源岩发育层数最多,且质量都较好,因此川东北部是烃类最富集的地区,也是勘探潜力最大的地区。     

鄂尔多斯盆地董志——正宁地区原油地球化学特征与成因

鄂尔多斯盆地董志—正宁地区是该盆地中生界油气勘探新区,对该地区原油的地球化学进行研究,了解原油的成因,可以为该地区石油勘探和开发提供科学依据。本研究首次对采集于董志—正宁地区原油和鄂尔多斯盆地烃源岩的烃类生物标志化合物进行了系统的分析,研究了它们的地球化学特征。原油中各类烃类生物标志化合物分布和组成特征指示了原油形成于...     

Gas systems in the Kuche Depression of the Tarim Basin: Source rock distributions, generation kinetics and gas accumulation history

Six petroleum source beds have been developed in the Kuche Depression (also known as “Kuqa Depression”) of the Tarim Basin, including three lacustrine source rocks (Middle and Upper Triassic Kelamayi and Huangshanjie formations, and Middle Jurassic Qiakemake Formation) and three coal measures (Upper Triassic Taliqike Formation, Lower Jurassic Yangxia Formation, and Middle Jurassic Kezilenuer Formation). While type I–II organic matter occurs in the Middle Jurassic Qiakemake Formation (J₂q), other source beds contain dominantly type III organic matter. Gas generation rates and stable carbon isotopic kinetics of methane generation from representative source rocks collected in the Kuche Depression were measured and calculated using an on-line dry and open pyrolysis system. Combined with hydrocarbon generation history modelling, the formation and evolution processes of the Jurassic–Triassic highly efficient gas kitchens were established. High sedimentation rate in the Neogene and the fast deposition of the Kuche Formation within the Pliocene (5 Ma) in particular have led to the rapid increase in Mesozoic source rock maturity, resulting in significant dry gas generation. The extremely high gas generation rates from source kitchens have apparently expedited the formation of highly efficient gas accumulations in the Kuche Depression. Because different Mesozoic source rocks occur in different structural belts, the presence of both lacustrine and coaly gas kitchens during the Cenozoic time can be identified in the Kuche Depression. As shown by the chemical and stable carbon isotope compositions of the discovered gases, the formation of the giant gas pools in the Kela 2, Dina 2, Yaha and Wucan 1 have involved very different geological processes due to the difference in their gas source kitchens.     

Stable carbon isotopes of alkane gases from the Xujiahe coal measures and implication for gas-source correlation in the Sichuan Basin,SW China

The Upper Triassic Xujiahe Formation in the Sichuan Basin, SW China consists of a series of coal measures. The first, third and fifth members of this formation are dominated by gas prone dark mudstones and coals. The mudstones contain Type II and III kerogens with average organic carbon contents around 1.96%. These source rocks are mature in the central Sichuan and highly mature in the western Sichuan Basin, characterized by gas generation with subordinate amounts of light oil or condensate oils. The source rocks are intercalated with the sandstone dominated second, fourth and sixth members of the Xujiahe Formation, thus leading to three separate self contained petroleum systems in the region. The proven gas reserves in the Xujiahe Formation are only less than that of the Triassic Feixianguan Formation and the Xujiahe Formation has the second largest gas field (Guang’an gas field) in the basin. Gases derived from the Xujiahe Formation coals generally show a normal stable carbon isotopic trend for C₁–C₄ n-alkanes, with the highest δ¹³C₂ values among the nine gas pay zones in the basin (?20.7‰ to ?28.3‰), and δ¹³C₁ values as low as ?43.0‰ in the central Sichuan. Gas accumulations with an oil leg have also been found in the eastern and southern Sichuan where the thickness of the Xujiahe Formation is significantly reduced. Gases in these accumulations tend to show low δ¹³C₂ values (?30.0‰ to ?36.3‰), characteristic of oil prone source rocks.     

藏北羌塘盆地油气地质勘探新进展

羌塘盆地是青藏高原最大的含油气盆地,也是中国潜在的石油战略后备区之一。新的油气地质调查发现,盆地内发育优质古生代烃源岩,主要为石炭系、二叠系的暗色泥岩,具有机碳含量高的特征,机质类型主要为Ⅱ2-Ⅲ型,Ro值大多为1.50%~2.40%,处于高成熟-过成熟阶段。前那底岗日组的古风化壳是盆地内新发现的潜在的储集层,其覆盖于二叠系以及前人已确定的三叠系肖茶卡组地层之上。新发现的上侏罗统-下白垩世白龙冰河组泥灰岩夹膏盐、页岩是区域上较好的盖层。盆地内近年来在地表发现油气显示250余处,其中最重要的是发现了现代天然气泄漏的泥火山,并采集到了天然气样品。综合考虑沉积相、烃源岩、储集层、盖层、保存条件等因素,优选了6个有利区块,其中,托纳木和半岛湖区块作为潜力目标区进行了勘探。     

鄂尔多斯中部奥陶系水溶烃的分子地球化学特征

应用GC、GC/MS分析法，系统剖析了鄂尔多斯中部奥陶系马家沟组水溶烃的分子地球化学特征，对其生物标志物组成、成熟度和成因进行了研究。研究认为，鄂尔多斯中部马家沟组水溶烃系高-过成熟阶段的烃产物，主要来源于古生界海相碳酸盐岩的贡献，并且不同井区水溶烃的有机质生源构成和成熟度等存在差异，从北（陕81井）到南(陕12井)，水溶烃组成中菌藻类低等生源比例增加，反映了古生界源岩的贡献增大。     

扎格罗斯盆地油气成藏特征及分布规律

扎格罗斯盆地是我国油气公司海外勘探的重要区域。基于最新油气田资料,系统分析了盆地的油气地质特征,总结了油气分布规律,并探讨了其主控因素。结果表明扎格罗斯盆地主要发育志留系、三叠系、侏罗系和白垩系四套主力烃源岩及古近系次要烃源岩,其中白垩系烃源岩贡献最大。碳酸盐岩是盆地的主要储层类型,从二叠系至中新统均有分布,其中上白垩统班吉斯坦(Bangestan)群和渐新统-下中新统阿斯马里组(Asmari)是主力产层;碎屑岩为次要储层,大部分位于土耳其境内的托罗斯褶皱带内。受造山运动挤压褶皱作用控制,盆地主要发育背斜构造圈闭,且油气总体上表现出垂向运移的特征。分析认为迪兹富勒坳陷、基尔库克坳陷和帕卜德赫坳陷蕴含了盆地绝大多数的油气资源,且新生界和白垩系的油气最为富集,其分布规律主要受控于烃源岩展布、圈闭分布、断层和裂缝发育程度及区域盖层的共同作用。     

藏东昌都盆地沉积构造演化及油气远景分析

根据沉积充填与沉积演化分析,昌都盆地中生代为一个叠合型盆地,晚三叠世为一个陆内断陷盆地,经历了断陷期-坳陷期-萎缩期,侏罗纪为一个受东、西两侧造山带挤压而形成的山间坳陷盆地。喜山期,昌都盆地经历了强烈的改造。昌都盆地存在3套烃源岩,即阿堵拉组和夺盖拉组潟湖相泥岩和沼泽相含煤岩系、中侏罗统东大桥组深湖相泥岩和灰岩; 4套储集岩,即甲丕拉组河流相碎屑岩、阿都拉和夺盖拉组滨岸相和三角洲相碎屑岩、波里拉组颗粒灰岩和白云岩。有利油气构造均形成于侏罗纪末,与三叠系的生油阶段基本吻合,可形成较好的油气成藏,其中昌都-察雅香堆为最有利油气远景区。     

扎格罗斯盆地含油气系统分析与资源潜力评价

扎格罗斯盆地是全球常规油气资源最富集的前陆盆地。基于最新的数据资料,应用石油地质综合评价和含油气系统分析的方法,研究了扎格罗斯盆地的油气分布和主控因素,以成藏组合为评价单元,评估了油气待发现可采资源量,并探讨了盆地的油气资源潜力和未来的勘探领域。研究表明,盆地发育6套含油气系统,白垩系/古近系复合含油气系统、侏罗系含油气系统和志留系Gakhum含气系统是最重要的含油气系统。区域上,盆地的油气主要分布于迪兹富勒坳陷、基尔库克坳陷和胡齐斯坦隆起;层系上,油气主要储集于古近系、新近系和白垩系。油气分布整体表现为“坳陷富油、隆起富气”的特征,其油气富集的主要控制因素是优质区域盖层、有效烃源岩的展布和新近纪的构造运动。资源评价结果表明,扎格罗斯盆地待发现可采石油、天然气和凝析油的资源量分别为44.6×10⁸t、9.3×10¹² m³和10.4×10⁸t,合计129.8×10⁸t油当量,最有勘探潜力的成藏组合是二叠/三叠系Deh Ram群、Asmari组和西北侏罗系成藏组合。     

Organic geochemical characteristics of crude oils from the Masila Basin, eastern Yemen

The Masila Basin is an important hydrocarbon province in Yemen, but the origin of hydrocarbons and their generation history are not fully understood. In this regard, 10 crude oils from different petroleum reservoir sections in the Masila Basin were characterized by a variety of biomarker and non-biomarker parameters using GC, GC-MS and stable carbon isotope techniques. Oils from the Masila Basin display pristane/phytane (Pr/Ph) ratios ranging from 1.7 to 2.0, low sulfur content, high C₃₅ homohopane index, relatively high C₂₇ sterane concentrations and relatively high tricyclic terpanes suggesting a marine clay source rock that was deposited in mildly anoxic to suboxic conditions with dominantly algal organic matter. C₂₉ 20S/(20S + 20R) steranes and ββ/(ββ + αα) sterane ratios indicate that the Masila oils have reached peak oil window maturity. Another related feature of these oils is the absence of 18α (H)-oleanane, which suggests a source age older than Cretaceous. The carbon isotope compositions are similar to those of the potential source rocks, which range from −25.4‰ to −28.3‰, indicating a marine environment. The new data presented in this paper suggest that the Masila oils constitute one oil family and that the oil originated from the Upper Jurassic Madbi source rock in the basin.     

羌塘盆地中生界含油气系统特征

羌塘盆地位于青藏高原中北部,具有广泛的中生代海相沉积。羌塘盆地中生代具有发育良好、分布广泛的烃源岩,其中上三叠统的肖茶卡组、中侏罗统布曲组和夏里组有机质类型好,丰度高,成熟度高,埋藏较好,其生油量巨大,是盆地油气的主要来源之一。羌塘盆地储集层和盖层发育,储盖层性能优越。根据Magoon的含油气系统理论,把羌塘盆地含油气系统分为3套:肖茶卡组(T3x)、布曲组(J2 b)和索瓦组(J3s)含油气系统,其关键时刻主要有:a.侏罗纪末—早白垩世早期;b.新近纪沉积之后,生储盖时空配置好。      

羌塘盆地胜利河地区布曲组油气地球化学特征与油源对比

羌塘盆地胜利河地区侏罗系海相地层的地表露头有大量的油气显示。以往研究表明该地区发育多套含油气系统,油气性质复杂。本次研究在前人工作基础上,以中侏罗统布曲组(J₂b)中部油页岩露头、探井岩心的油气显示以及地表油气显示为主要研究对象。通过TOC分析、岩石热解、饱和烃色谱和饱和烃色谱-质谱的分析,更为详细地研究了胜利河地区烃源岩类型,对原油来源进行了进一步探讨,为该地区下一步油气勘探工作提供更多的理论依据。研究表明,该地区J₂b组中部油页岩有机质类型以Ⅱ型为主,具有较高的生油潜力。该地区原油主要来源于还原性海相沉积环境。研究区样品的有机质输入主要以低等水生生物为主, DB4142以低等水生生物和高等植物混合贡献,BD4902以高等植物输入为主。原油处于成熟阶段,所有样品均检测出25-降藿烷系列的化合物,指示样品均遭受了较为强烈的生物降解作用。依据生物标志物指纹特征和生物标志化合物参数特征,运用聚类分析方法,将研究区原油划分为A、B、C、D四类。其中A类原油主要来自于同层位(J₂b)的烃源岩,而B、C、D类原油没有或者很少有该套...     

澳大利亚西北陆架油气分布规律与主控因素研究

澳大利亚西北陆架油气资源,特别是天然气资源富集,是全球液化天然气的主要供应地之一。西北陆架不仅是澳洲油气勘探潜力最大的地区,而且也是中国油公司拓展海外油气业务的重要地区。以多方面收集的数据资料为基础,探讨澳大利亚西北陆架油气分布规律,揭示油气分布主控因素,进而优选有利勘探区。区域上,已发现的油气储量主要分布于西北陆架最西南端的北卡那封盆地;层系上,油气主要富集于下白玺统泥页岩区域盖层之下的上三叠统、侏罗系或下白玺统碎屑岩储集层。油气分布整体表现为“内油外气、下气上油、以气为主的特征,油田多局限于侏罗纪裂谷作用控制的发育有成熟生油岩的次盆地。腐殖型干酪根类型和烃源岩的高成熟度决定了西北陆架的富气特征,侏罗纪发育的裂谷控制了石油的区域分布。基于油气地质综合研究和油气发现过程,优选出了埃克斯茅斯高地、埃克斯茅斯次盆、巴科一次盆、卡斯韦尔次盆、萨胡尔台地、卡尔德尔地堑和武尔坎次盆7个有利勘探区。     

辽宁金羊盆地羊D1井油砂地球化学特征及意义

在中国地质调查局沈阳地质调查中心实施的"羊D1"井的中侏罗统髫髻山组火山岩中见多处油气显示,取得了油气新发现。对该井已发现的2件油砂样品中的原油采用气相色谱-质谱技术(GC-MS)进行了分析测试,结果显示,2个油砂样品的地球化学特征一致,表现为链烷烃呈现出单峰态的分布,主峰碳数分别为C_(21)和C_(22),无明显奇碳数优势,姥植比值低;萜类化合物表现为,三环萜烷以C_(23)为主峰呈正态分布,C_(24)四环萜烷与C_(26)三环萜烷丰度相当,伽马蜡烷含量较高;甾类化合物表现为规则甾烷相对含量关系为C_(27)C_(29)C_(28),以C_(27)甾烷占优势的不对称"V"形分布。这些指标总体指示,原油为成熟油,对应烃源岩沉积于偏还原性的湖相环境,母质来源主要为藻类等低等水生生物,陆源高等植物也具有一定贡献。通过和周边的北票组烃源岩进行油岩对比研究发现,油砂样品中的原油可能来自于盆地内下伏的下侏罗统北票组烃源岩的贡献。研究结果说明,北票组在金羊盆地分布广泛,其烃源岩可能具有较好的生油潜力,金羊盆地是一个具有勘探潜力的含油气盆地。     

塔里木盆地原油中的微化石与油源岩形成环境

本文基于塔里木盆地原油中发现的８９属１８３种孢子花粉化石和１６属２７种菌藻类化石的研究，通过孢粉化石的油源对比确认中代陆相油源的重要贡献、并根据孢子花粉母体植物和藻类的生态特征讨论了油源岩形成的环境。     

Study on petroleum geological conditions in Dazhuom area of Southern Qiangtang Basin of Tibet

Previous researchers in Dazhuoma area of Southern Qiangtang Basin have found some sporadic oil and gas on the surface and collected a small amount of source rocks for analysis, but the exploration degree was generally low and they have not carried out systematic analysis of the generation, storage and cap of oil and gas. Based on the previous data, the authors in this paper have studied the characteristics of the source rocks, reservoir rocks and cap rocks in Dazhuoma area of Southern Qiangtang Basin by means of field petroleum geological survey, sample collection, indoor analysis and comparative research. The results suggest that the mudstone and shale of Adula Formation in the study area are considered as good source rocks, and the mudstone and silty mudstone of Sewa Formation are poor-medium source rocks, while Buqu Formation, Shari Formation and Suowa Formation are poor source rocks. The main reservoir rocks are the sandstone of Adula Formation and the dolomite of Buqu Formation. The cap rocks are argillaceous rocks, limestone and gypsum, and are mainly Ⅰ and Ⅱ cap rocks. Furthermore, the discovery of oil exposure shows that this basin has underwent the process of oil and gas generation, migration, gathering and losing, which builds the material foundation of oil and gas generation and the petroleum geological conditions of hydrocarbon accumulation. It is suggested that more drilling should be arranged in Darzhuoma anticline with good oil and gas storage conditions, and further deep research should be carried out to achieve oil and gas breakthrough in this area.     

Maturity studies and source-rock potential in the southern Sverdrup Basin, Arctic Canada

The purpose of the study is to better understand the relationship between organic matter optical properties and the presence of potentially large oil and gas accumulations in Arctic Canada. The type and thermal maturity of the dispersed organic matter of the Mesozoic formations in the southern Sverdrup Basin, Melville Island, have been studied using organic petrology and Rock-Eval pyrolysis.All types of organic matter are present in the strata of Mesozoic age. Hydrogen-rich liptinite is dominated by alginite (Botryococcus and Tasmanites), dinoflagellate cysts and amorphous fluorescing matrix. Sporinite, cutinite, resinite and liptodetrinite made up the lesser hydrogen-rich exinite. Vitrinite reflectance in Cretaceous sediments ranges from 0.36 to 0.65% R_o; in Jurassic sediments it ranges from 0.40 to 1.0% R_o and in the Triassic from 0.45 to 1.30% R_o, showing an overall increase with depth of burial.Cretaceous sediments of the Deer Bay Formation are thermally immature and contain organic matter of terrestrial origin. The Upper Jurassic shales of the Ringnes Formation contain predominantly organic matter of liptinitic and exinitic origin with a considerable vitrinitic input. At optimum maturation levels, potential source beds of this formation would have a good hydrocarbon-generating potential. The hydrocarbon potential, however, would be limited to the generation of gases due to the leanness of the source rocks. Parts of the Lower Jurassic Jameson Bay Formation are organic-rich and contain a mixed exinitic/vitrinitic organic matter, Botryococcus colonial algae but visible organic matter is dominated by high plant remains (mainly spores). The Schei Point Group shales and siltstones contain organic matter of almost purely marine origin, whereas the predominantly higher plant-derived organic matter found in the Deer Bay, Jameson Bay and partly in the Ringnes formations have higher TOC. Among the Schei Point Group samples, the Cape Richards and Eden Bay members of the Hoyle Bay Formation are richer in TOC (>2.0%) than the Murray Harbour Formation (Cape Caledonia Member). This may reflect differences in the level of maturity or in the depositional environment (more anoxic conditions for the former).Regional variations in the level of thermal maturity of Mesozoic sediments in Sverdrup Basin appear to be a function of burial depth. The Mesozoic formations thicken towards the basin centre (NNE direction), reflecting the general pattern of increasing thermal maturity north of Sabine Peninsula. However, the regional thermal-maturation pattern of the Mesozoic is not solely a reflection of the present-day geothermal gradient, which indicates that anomalous zones of high geothermal gradient may have existed in the past, at least since when the Mesozoic sediments attained maximum burial depth. The contour pattern of the regional variation of maturity at the base of numerous Triassic formations is similar to that of the structural contours of the Sverdrup Basin, indicating that present-day maturation levels are largely controlled by basin subsidence.     

西藏南羌塘盆地达卓玛地区油气地质条件研究

前人在南羌塘达卓玛地区零星发现了一些地表油气显示并采集了少量的烃源岩进行分析,但勘查程度总体较低,未开展系统的生、储、盖研究。结合前人资料,通过野外石油地质调查、样品采集、室内分析、对比研究等手段,对南羌塘盆地达卓玛地区的烃源岩、储集岩、盖层等油气地质条件进行了分析,认为研究区阿堵拉组泥岩、页岩为好烃源岩,色哇组泥岩、粉砂质泥岩为差—中等烃源岩,布曲组、夏里组和索瓦组发育差烃源岩; 储集岩主要为阿堵拉组砂岩和布曲组白云岩; 盖层有泥质岩、灰岩和石膏,以Ⅰ、Ⅱ类盖层为主。野外调查中发现了大量地表油气显示,盆地经历了油气生成、运移、聚集和散失的过程,具有油气生成的物质基础和成藏的油气地质条件。建议在油气存储条件良好的达卓玛背斜布置钻井,进一步开展深部研究,力争实现该地区油气突破。     

羌塘盆地第一口油气科学钻探井油气地质成果及勘探意义

羌塘盆地位于青藏高原腹地,是我国陆上面积最大、勘探程度最低的油气勘探新区,长期以来,由于缺乏油气科学钻探井的验证,对盆地油气地质条件认识不清。最近,中国地质调查局成都地质调查中心在北羌塘中北部的半岛湖地区组织实施了第一口深达4696.18米的油气科学钻探井—羌科1井,本文对该科探井的油气地质成果进行了报道。钻遇了从上侏罗统至上三叠统的连续地层,其中下-中侏罗统雀莫错组与下伏上三叠统那底岗日组地层为整合接触,沉积环境为三角洲-局限台地环境。羌科1井在雀莫错组中首次钻遇了烃源岩,并发现13层气测异常,其中,3层为重要含气层,此外还识别出两套重要的区域性盖层和一套直接封盖层。这些成果表明半岛湖地区油气保存条件较好,是盆地油气勘探的有利地区。