全球典型被动陆缘盆地油气成藏特征

以被动陆缘油气富集理论为指导,通过研究南大西洋和印度洋被动陆缘盆地油气地质条件,分析油气差异富集因素。研究结果表明:被动陆缘盆地主要发育3套含油气系统,其中印度洋地区主要发育克拉通陆内裂谷期含油气系统,裂陷期含油气系统,漂移期含油气系统。南大西洋地区主要发育裂陷期含油气系统,漂移早期含油气系统和漂移晚期含油气系统。根据不同油气成藏特征,总结为10类成藏模式,不同成藏模式发育背景和成藏主控因素各异。为被动陆缘盆地不同构造沉积演化阶段油气勘探方向提供研究基础,对相关或类似盆地勘探研究提供借鉴。     

成藏区带地球动力学与远景圈闭

新区油气勘探和评价,主要划分4个层次:盆地分析→油气系统→成藏区带→远景圈闭。各类原型盆地的形成与地球动力学环境有关,可简化为裂谷盆地、前陆盆地、走滑盆地和克拉通盆地等。油气系统在不同地球动力学环境下形成裂谷型油气系统、台地型油气系统和造山型油气系统。中国许多大型盆地属于叠合盆地,并构成复合油气系统和成藏区带。各类成藏区带和远景圈闭也与地球动力学环境有关。     

Research Progress in the Petroleum and Natural Gas Geological Theory of China

The Chinese landmass, as a composite region, consists of multiple small continental blocks, such as Sino-Korea, Yangtze, Tarim, etc., and orogenic belts. Because of its distinctive tectonosedimentary evolution, China’s oil/gas-bearing regions differ remarkably from that elsewhere in the world. For instance, in comparison to the Middle East oil/gas-bearing regions which are characterized by Mesozoic-Cenozoic marine oil/gas-bearing beds, early oil and gas discoveries in China are distributed mainly in Mesozoic-Cenozoic continental sedimentary basins. Generation of oil from terrestrial organic matter, or terrestrial oil generation, and the formation of large oil/gas fields in continental sedimentary basins were previously the major characteristics of petroleum geology of China. However, in the past 20 years, a series of major oil and gas discoveries from marine strata have been made. Marine oil/gas fields in China are mainly distributed in the Tarim, Sichuan, and Ordos basins, which are tectonically stable and covered with Mesozoic-Cenozoic deposits. In these basins, hydrocarbon-bearing strata are of old age and the oil/gas fields are commonly deeply-buried. Cumulatively, 995 oil/gas fields have been found so far, making China the fourth largest oil-producing country and the sixth largest gas-producing country in the world. In terms of petroleum and natural gas geology, theories of hydrocarbon generation from continental strata, such as terrestrial oil generation and coal-generated hydrocarbons, etc., have been established. Significant progress has been made in research on the sequence stratigraphy of continental strata, formation mechanisms of ultra-deep clastic reservoirs, and hydrocarbon accumulation in the continental subtle reservoir. Regarding research on the marine petroleum geology of China, with respect to the major characteristics, such as deeply-buried reservoirs, old strata, and multiple phases of transformation, important advances have been made, in areas such as the multiple-elements of hydrocarbon supply, formation of reservoirs jointly controlled by deposition, tectonic activities, and diagenetic fluid-rock reactions, and oil/gas reservoirs formed through superimposed multi-stage hydrocarbon accumulation. As more and more unconventional hydrocarbon resources are discovered, unconventional oil and gas reservoirs are under study by Chinese petroleum geologists, who endeavor to come up with new discoveries on their formation mechanisms.     

中国中西部类前陆盆地与典型前陆盆地类比及其油气勘探前景

中国中西部广泛发育中新生代类前陆盆地，其地质结构和石油地质条件等方面与典型前陆盆地既有类似之处也存在明显差异，主要表现在演化历史复杂；石炭纪以前均为构造性质各异的海相盆地，二叠纪为海相盆地向陆向盆地的转换过渡时期，三叠纪以后基本为陆相盆地（仅塔里木西南盆地晚白垩世-早第三纪有短暂海侵），侏罗纪-白垩纪为断陷-坳陷盆地西部），第三纪以后，逐渐转变为类前陆盆地（西部），在生烃条件方面不仅发育海相烃源岩，且普遍存在煤系烃源岩，进一步增加了其生烃潜力，同样，在储集条件方面，中国类前陆盆地除发育海相储集层外，还广泛分布陆相储集层，因此，中国类前陆盆地基本石油地质条件与国外富油气前陆盆地相比，除海相烃源岩的质量不及后者外，其它方面并无明显不足，且具有发育陆相烃源岩和储集岩的优势，因此，中国中西部类前陆盆地具有较好的勘探前景，特别是陆相层序具有更为现实的勘探价值。     

南美洲被动大陆边缘盆地的油气地质特征

南美洲被动大陆边缘盆地是目前世界油气勘探最活跃的地区之一。南美洲被动大陆边缘盆地形成于晚侏罗世-早白垩世冈瓦纳大陆的裂解,经历了前裂谷期、同裂谷期、过渡期、后漂移期4个阶段,发育了多套生储盖组合。其中同裂谷期的湖相源岩为最重要的生油岩,过渡期发育的盐岩层对油气的成藏起着关键作用。近年来,发现的大油气田均位于盐下同裂谷期的陆相碎屑岩和湖相碳酸盐岩储层中。南美东部被动大陆边缘盆地可以按油气潜力分为3类,最有潜力区位于巴西东海岸的中南部盆地群。随着油气勘探技术的进步,在本区进行油气藏勘探具有广阔的前景。     

地块—海槽边缘带成油成气新概念

对准噶尔，塔里木等盆地沉积环境的研究表明，古生代时，中国西北区海相沉积，沉积盆地的基底是一些离散的古老结晶地块，其上海水侵浸，地块之间为大洋或窄大洋的海槽，地块之间的海槽或地块与海槽过渡的边缘带盆地是油气形成的有利地带。     

地块－海槽边缘带成油成气新概念

对准噶尔、塔里木等盆地沉积环境的研究表明,古生代时,中国西北区为海相沉积,沉积盆地的基底是一些离散的古老结晶地块,其上海水侵漫,地块之间为大洋或窄大洋的海槽。地块之间的海槽或地块与海槽过渡的边缘带盆地是油气形成的有利地带。在海槽遭受压缩褶皱而回返的造山过程中,＂地块－海槽＂体系发生转化,形成中新生代＂山系－盆地＂的陆相沉积体系。边缘带的油气源岩系被埋藏在盆地外围的山系之下。但其中形成的部分油气已运移到盆地内的储集层中聚集,形成＂外生内储＂的油气藏。在这种类型的盆地中,存在陆相生油和海相生油、＂内生内储＂和＂外生内储＂的两类生油岩系和两种生储组合配置体系。这一油气形成分布的理论,已不断地被油气地球化学研究和勘探实践所证实。＂地块－海槽＂边缘带油气形成观点的提出,突破了以现今盆地为界限研究古生代油气形成分布规律的传统观念,增大了中国西北区可以发现的油气资源量,扩展了找油找气的新领域,具有十分重要的意义。     

中国中新生界沉积盆地与油气成藏

中国中新生代沉积盆地是在多种大陆动力学体制下形成和发展演化的,不同板块边界条件、岩石圈变形机制和地幔热状态等因素制约了中新生代沉积盆地不同的发展过程。古气候条件是控制中新生代沉积盆地有机质形成和分布的重要因素。多次潮湿与干旱气候的交替形成了多个有利生油岩系。有机质热演化程度使沉积盆地成烃过程复杂多样,成烃门限也存在很大差异。多旋回构造运动使中新生代沉积盆地具有多个含油气系统的横向迁移和垂向叠置以及多个关键时刻的鲜明特点。油气往往存在多次运移,盆地内的油气藏往往是后期改造、调整和破坏的结果。     

Tectonics and petroleum potential of the East Arctic province

Tectonics and petroleum potential of the underexplored East Arctic area have been investigated as part of an IPY (International Polar Year) project. The present-day scenery of the area began forming with opening of the Amerasia Ocean (Canada and Podvodnikov—Makarov Basins) in the Late Jurassic—Early Cretaceous and with Cretaceous—Cenozoic rifting related to spreading in the Eurasia Basin. The opening of oceans produced pull-apart and rift basins along continental slopes and shelves of the present-day Arctic fringing seas, which lie on a basement consisting of fragments of the Hyperborean craton and Early Paleozoic to Middle Cretaceous orogens. By analogy with basins of the Arctic and Atlantic passive margins, the Cretaceous—Cenozoic shelf and continental slope basins may be expected to have high petroleum potential, with oil and gas accumulations in their sediments and basement.     

Large and giant hydrocarbon accumulations in the transitional continent-ocean zone

The petroleum resource potential is considered for the Atlantic, West Pacific, and East Pacific types of deepwater continental margins. The most considerable energy resources are concentrated at the Atlantic-type passive margins in the zone transitional to the ocean. The less studied continental slope of backarc seas of the generally active margins of the West Pacific type is currently not so rich in discoveries as the Atlantic-type margin, but is not devoid of certain expectations. In some of their parameters, the margins bounded by continental slopes may be regarded as analogs of classical passive margins. At the margins of the East Pacific type, the petroleum potential is solely confined to transform segments. In the shelf-continental-slope basins of the rift and pull-apart nature, petroleum fields occur largely in the upper fan complex, and to a lesser extent in the lower graben (rift) complex. In light of world experience, the shelf-continental-slope basins of the Arctic and Pacific margins of Russia are evaluated as highly promising.     

中国海域油气勘探的新领域——应当重视海域中生界油气资源

中国近海海域目前发现的油气绝大部分产自第三纪盆地，且以陆相为主，勘探工作虽已取得突破性进展，但就勘探的深度和广度而言，领域的局限性影响了油气储产能力，难以满足国家对油气资源迫切的需求。本以近海海域中生界盆地沉积与油气特征为主题，提出开拓中生界油气新领域，尤其是寻找前景极佳的海相油气，为发现大型中生界油气领域，尤其是寻找前景极佳的海相油气，为发现大型中生界油气田提供更多的后备勘探基地。     

鄂尔多斯盆地下侏罗统富县组沉积体系及古地理

富县组是鄂尔多斯盆地侏罗系最早沉积的地层,其发育在由印支运动所造成的凹凸不平剥蚀面上,沉积以填平补齐为特点,与下伏三叠系延长组呈不整合接触关系。富县组沉积厚度变化大,岩性差异明显,岩相复杂。沉积相在空间上变化较大,为河流相和冲积扇相沉积     

地球动力学与盆地层序及油气系统分析

油气盆地、沉积层序与油气系统的研究属于不同层次的油气资源评价的基础研究。各类原型盆地的形成与地球动力学环境有关,并可简化为裂谷盆地、前陆盆地、走滑盆地和克拉通盆地等。沉积层序驱动机制由地球动力学的不同环境所决定,沉积层序可分类为裂谷盆地层序、前陆盆地层序和走滑盆地层序。油气系统在不同地球动力学环境下形成裂谷油气系统、台地油气系统和造山油气系统。中国许多大型盆地属于大型叠合盆地,并构成复合油气系统。     

中国陆上主要含油气盆地石油地质基本特征

中国大陆是由若干大小不等的克拉通与不同时代的造山带组成的拼合体,在显生宙经历了古生代陆洋分化对立阶段,石炭纪－二叠纪软碰撞转化阶段和中,新生代贫山对峙发展阶段,从而形成了陆上３类叠合型盆地;即克拉通与前陆叠合,断坳叠合及残留与新生盆地的叠合     

非洲地区盆地演化与油气分布

非洲地区盆地整体勘探程度较低,待发现资源量大,是当前油气勘探开发的热点地区之一。非洲板块在显生宙主要经历了冈瓦纳大陆形成、整体运动和裂解3个构造演化阶段,形成多种不同类型的盆地。通过板块构造演化和原型盆地研究及石油地质综合分析,明确了不同类型盆地的构造特征与油气富集规律。北非克拉通边缘盆地形成于古生代早期,受海西运动影响,油气主要富集在挤压背景下形成的大型穹隆构造之中,以古生界含油气系统为主;北非边缘裂谷盆地海西运动之后普遍经历了裂谷和沉降,裂谷期各盆地沉降幅度和沉降中心的差异导致了油气成藏模式和资源潜力的差异;东、西非被动陆缘盆地形成于中生代潘吉亚大陆的解体、大西洋和印度洋张裂的过程中,西非被动陆缘盆地普遍发育含盐地层,形成盐上和盐下两套含油气系统,东非被动陆缘盆地结构差异较大,油气分布主要受盆地结构控制;中西非裂谷系是经历早白垩世、晚白垩世和古近纪3期裂谷作用而形成的陆内裂谷盆地,受晚白垩世非洲板块与欧亚板块碰撞的影响,近东西向展布盆地抬升剧烈,油气主要富集在下白垩统,北西南东向盆地受影响较弱,油气主要富集在上白垩统和古近系之中;新生代东非裂谷系盆地和红海盆地形成时间相对较晚,以新生界含油气系统为主,新生代三角洲盆地中油气分布主要受三角洲砂(扇)体展布和盆地结构所控制。     

Regional Distribution and Prospects of Potash in China

China was formed by amalgamation of several small continental blocks (cratons), micro, blocks and orogenic belts in different paleoclimatic settings. It may be correlated with other continental blocks but has its own specific characteristics; therefore the tectonic environments of China’s marine and continental saline basins and salt, and potash, forming environment have some specific characteristics: multiple phases of salt formation, difference in salt, forming ages, migration and concentration of salt, forming processes and diversity of component materials, as well as small sizes of marine saline basins and great changes of saline basins in the late stage and occurrence of abundant liquid mineral resources. The nature of the tectonic basement exerted a key controlling effect on the formation of potash basins. The stable tectonic region was favorable for potash concentration in a quasi, stable region, and quasi, and the quasi-stable region was favorable for salt concentration and potash formation in a local stable tectonic region. Most China’s major ancient saline basins occur in “quasi, cratons (continental block)”; especially all the marine saline basins occur in continental blocks with the Precambrian basement. These regions are the key ones for potash search. Most relatively large, scale soluble salt deposits are developed in relatively stable continental nuclei. According to the characteristics of the tectonic domains where China’s salt, forming basins are located, the North China, Yangtze and Tarim, Qaidam salt minerogenetic domains and the northern Qiangtang, western Yunnan salt minerogenetic belt may be distinguished. Their salt and potash prospects will be discussed separately.     

"源热共控论":来自南海海域油气田"外油内气"环带有序分布的新认识

南海海域新生代经历印支—南海地台裂谷期、陆间裂谷期和区域沉降阶段,形成大陆架、大陆坡和洋壳区三大区域构造单元。围绕洋壳区,大陆坡和大陆架呈准环带状分布格局。沉积盆地主要分布在大陆架和大陆坡上,亦环绕中央洋壳区呈环带状分布。南海油气勘探活动于20世纪60年代末期开始,截至目前已发现数百个油气田,这些油气田主要分布在南部、北部和西部等大陆边缘。油气田分布主要呈大陆架或其近陆部分以油田为主、大陆坡（也包括邻近大陆架部分区域）以气田为主的“外油内气”特征。油环区凹陷烃源岩以中深湖相泥岩或深海相泥岩为主,沉积有机质以Ⅰ、Ⅱ1型干酪根为主,地壳相对较厚、热流值相对较低、烃源岩主要处在生油窗以内,烃类产物主要是原油。气环区生烃凹陷烃源岩以海陆过渡相泥岩和海相烃源岩为主,沉积有机质主要是Ⅱ2—Ⅲ型干酪根,地壳厚度相对较薄,热流值高,具“超热盆”特征,烃源岩以生气为主。油环区主力储层是砂岩,形成于湖相到浅海环境,存在多套储盖组合。气环区内带存在浅水沉积和深水沉积两套储盖组合,以深水扇和生物礁储层为主,盖层主要为海相泥岩。以300 m水深为界,油环带主要位于浅水区,勘探程度较高;内带气环主要位于陆架下部及陆坡区,勘探程度较低。南海海域勘探领域正在由浅水区向深水区发展。南海油气资源丰富,有望成为我国新的大油气区。     

巴西坎波斯盆地和桑托斯盆地油气分布差异及主控因素

巴西坎波斯盆地和桑托斯盆地均为典型的被动陆缘盆地。随着勘探程度的增加和近年来在桑托斯盆地深水区盐下油气的重大发现,坎波斯盆地和桑托斯盆地之间的构造-沉积演化和油气地质特征的差异性越来越明显。通过对坎波斯盆地和桑托斯盆地区域地质特征和油气成藏条件差异性的比较,总结出两个盆地油气分布特征的截然不同。研究表明,盐窗比较发育的坎波斯盆地中已发现的油气主要富集于盐上浊积砂岩,而连续盐岩发育的桑托斯盆地已发现的油气则主要富集于盐下湖相碳酸盐岩。对于盐下层系,连续分布的盐岩和圣保罗高地的发育控制了盐下层系油气的分布;对于盐上层系,盐相关构造的发育则为油气垂向运移提供了有利通道,从而控制了盐上油气藏的形成与分布。     

试论中国陆相油气侧向源——碰撞造山成岩成矿模式的拓展和运用

笔者根据我国陆相盆地富油、海相地层盆油、“盆小油量大”、油气与金属－非金属矿床伴生等特点，提出油气成藏物质侧向源的观点，依据碰撞造山成岩成矿与流体作用模式（CPMF）分析盆山转变过程中流体产生，运移，有机－无机分离和富集的机制，建立了盆山转换过程流体作用与油气侧向源模式。从油气田富集金属元素，造山带金属矿床成矿流体含烃类等有机组分，盆地沉积所堆积的有机质随盆山转换而形成油气，现代油气盆地与造山带金属矿集区空间耦合等4个方面论证了油气成藏物质侧向源的客观性和流体运移成藏模式的科学性。讨论了中国陆相油气藏的形成和分布规律，提出了今后油气勘查的方法。     

亚洲特提斯域油气聚集地质特征

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