中国中西部前陆盆地多期成藏、晚期聚气的成藏特征

中国中西部前陆盆地具有优越的天然气成藏条件,同时具有晚期成藏的特征。文中在典型气藏解剖的基础上重点讨论了川西、柴北缘和准南缘前陆盆地的成藏过程,从而指出中国中西部前陆盆地具有多期聚集、晚期聚气的成藏特征,明确指出中国中西部前陆盆地具有最主要的两大成藏期,一是燕山晚期,主要是被动陆缘或中部前陆盆地三叠系烃源岩的油气聚集期;二是喜山晚期,受新构造运动影响,主要是西部陆内前陆盆地的中、新生界烃源岩的天然气成藏期和中部周缘前陆盆地的天然气的调整期。新近纪前陆盆地的发育期控制了中国中西部前陆盆地以中生界煤系烃源岩为主的晚期天然气的聚集。     

四川盆地天然气成藏条件及其勘探方向

四川盆地系在刚性结晶基底上由克拉通海相原型盆地同造山前陆盆地和后造山前陆盆地先后演化而成的克拉通前陆盆地。整体封存构造保存条件是该盆地天然气成藏的主体地质背景和晚期成藏保存的主要条件。加里东和印支两期的古隆起对油气的早期聚集和破坏具有双重作用,但有利于晚期成藏。盆地的保存条件可划分为整体封存、残留封存和缺乏封存三类构造保存单元,并由此可划分出三个相应的构造保存单元组合区。盆地的天然气成藏条件总体良好,影响因素主要是水动力条件和断层。该盆地有T_3,P_2~1,P_1~(1+2),S_1,∈_1和 Z_2六套主力烃源岩和 Z_2—∈_1,∈_1—S,S—P_1,p—T_2,T_3—J 五套成油气体系。今后深化勘探的方向为:(1)川东石炭系向斜带的低缓构造、潜伏构造、高陡背斜带两翼的高陡潜伏构造,特别是构造复合圈闭;(2)川东北—川北开江—梁平、城口—鄂西等海槽为中心的以陆棚边缘滩、碳酸盐岩深缓坡台地;(3)川西—川中的须家沟组原生气藏和侏罗系次生气藏。评价该盆地可以从反向思维入手,即对油气藏破坏条件进行区域和目标评价。     

沔阳-当阳中生代前陆盆地构造特征及油气勘探

沔阳—当阳前陆盆地自北而南可划分为五个构造单元：桐柏山-大别山基底卷入推覆构造带、南大巴山-大洪山叠瓦逆冲断裂构造带、沔阳一当阳拗陷变形带、宜昌-沙市前陆斜坡带、黄陵-松滋前缘隆起带。盆地的形成与南大巴山-大洪山造山带的发育密切相关。盆地经历了加里东期、海西-印支期南秦岭洋盆、北华南洋盆的两次。开(降)、合(升)”,燕山早期陆内俯冲造山成盆及燕山晚期-喜马拉雅期陆内伸展断陷的演化。盆地油气资源丰富,具三套有效烃源岩;晚奥陶世-早志留世广海陆棚相泥页岩,二叠纪滨岸沼泽相含煤泥岩,晚三叠世-早侏罗世湖泊-沼泽相暗色泥页岩、煤系泥岩和煤岩。中三叠世-早第三纪为油气生成高峰期。油气运移指向主要为南西方向的前缘隆起。     

沔阳—当阳中生代前陆盆地构造特征及油气勘探

沔阳—当阳前陆盆地自北而南可划分为五个构造单元 :桐柏山—大别山基底卷入推覆构造带、南大巴山—大洪山叠瓦逆冲断裂构造带、沔阳—当阳拗陷变形带、宜昌—沙市前陆斜坡带、黄陵—松滋前缘隆起带。盆地的形成与南大巴山—大洪山造山带的发育密切相关。盆地经历了加里东期、海西—印支期南秦岭洋盆、北华南洋盆的两次“开 (降 )、合 (升 )” ,燕山早期陆内俯冲造山成盆及燕山晚期—喜马拉雅期陆内伸展断陷的演化。盆地油气资源丰富 ,具三套有效烃源岩 :晚奥陶世—早志留世广海陆棚相泥页岩 ,二叠纪滨岸沼泽相含煤泥岩 ,晚三叠世—早侏罗世湖泊—沼泽相暗色泥页岩、煤系泥岩和煤岩。中三叠世—早第三纪为油气生成高峰期。油气运移指向主要为南西方向的前缘隆起     

川西前陆盆地天然气成藏过程

川西前陆盆地具有丰富的天然气资源,发育上三叠统巨厚的煤系烃源岩,以生气为主,并发育多套储盖组合。天然气成因类型主要是煤成气,目前的气田分布主要受古隆起、沟通下部烃源岩和上部储集层的隐伏断层以及储集条件的控制。川西前陆盆地具有多期成藏、燕山期或喜山期聚集、喜山期调整等特点。来自上三叠统煤系源岩的天然气聚集主要在燕山期,形成原生气藏或下生上储型气藏;后经过喜山期的逆冲作用,对浅层储集层进行改造,产生的断裂沟通深部气藏与浅层圈闭,在对深层(主要在上三叠统)原生气藏进行改造的同时形成浅层(侏罗系)次生气藏。     

新疆三塘湖盆地构造演化及油气勘查方向

三塘湖盆地是中、新生代陆相山间盆地，经历了晚二叠世盆地形成阶段、中生代盆地发展早期阶段及新生代盆地发展晚期阶段；并在成盆初期及盆地发展早期发育三套生油岩系，构成了盆地烃源岩。盆地主要受控于燕山期断裂活动，控制了凹陷、凸起形态及规模，奠定了局部构造的雏形。受燕山—喜马拉雅期断裂活动的影响，形成了位于盆地中央坳陷带内的背斜、断块背斜构造。盆地中西部油气前景最好，是今后油气勘查的主要地区。     

下扬子独立地块海相残留盆地油气勘探方向探讨

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。     

龙门山中段前缘须家河组裂缝特征与油气的关系

龙门山前深层须家河组气藏主要受裂缝控制,裂缝的发育与构造、断裂密切相关。应用声发射试验、包裹体测温和碳、氧同位素等方法,对龙门山中段前缘深层上三叠统须家河组裂缝特征进行了研究,把须家河组裂缝分为构造裂缝和成岩裂缝两类。龙门山前须家河组中存在印支期、燕山期和喜马拉雅期的多期构造作用,其中印支期和燕山期破裂作用相对较弱,形成的裂缝较少,而喜马拉雅期破裂作用较强,形成了大量的断层和构造裂缝。对须家河组致密砂岩储层来说．发育的构造裂缝是油气藏高产的必要条件。     

川西前陆盆地次生气藏天然气来源追踪

浅层次生气藏在川西前陆盆地占重要地位,天然气虽都直接或间接来自须家河组煤系烃源岩,但具体来自须家河组三套煤系中的哪一套烃源岩始终是个难题.这影响了川西天然气成藏方面的研究,也给勘探带来很多困惑.对川西原生和次生气藏天然气地球化学特征进行对比分析,结合川西天然气成藏地质条件和成藏特点,发现次生气藏天然气的来源各不相同,主要由隐伏断裂和所沟通的原生气藏来决定.典型气田研究结果表明,平落坝气田浅层次生气藏天然气来自与须五段煤系烃源岩有关的原生气藏,而白马庙气田次生气藏天然气则来自与须一段煤系有关的原生气藏.     

中国中-西部4种新生代挤压盆地成藏地质条件及成藏期次

新生代挤压盆地是我国中-西部的重要油气勘探领域。根据挤压盆地的发育部位、盆地基底、充填层序、构造叠加和盆山耦合形式等条件,本文在我国中-西部识别出准(噶尔)西北缘型、四川盆地西缘型、柴(达木)北缘型和准(噶尔)南缘型等4种新生代挤压盆地,前两者发育海西晚期—印支期前陆盆地,后两者具有喜马拉雅造山期的再生前陆盆地特征。对准西北缘、四川盆地西缘、柴北缘和准南缘新生代挤压盆地的对比研究表明,它们在烃源岩、储盖组合等成藏条件上存在明显的差异,而晚期前陆发育对柴北缘型和准南缘型挤压盆地烃源岩演化具有明显的控制作用。在不同新生代挤压盆地典型油气藏解剖研究的基础上,认为燕山期及之前是准西北缘型和四川盆地西缘型挤压盆地主要的成藏期,喜马拉雅造山期则主要表现为准西北缘型挤压盆地的油气藏保存和四川盆地西缘型挤压盆地油气藏的调整和定型;喜马拉雅晚期是柴北缘型挤压盆地最主要的成藏期,而多期前陆盆地的准南缘型挤压盆地具有多期成藏的特征,但喜马拉雅晚期的油气成藏最为重要。     

四川类前陆盆地须家河组震积岩的发现及其研究意义

四川盆地是扬子地块上的一个多旋回类前陆盆地,盆地边缘长期剧烈的构造活动控制着上三叠统须家河组的沉积作用。通过地表剖面和岩芯观察,首次在该盆地上三叠统须家河组地层中识别出微裂缝、微褶皱层、[JP2]微断层、液化砂岩构造、球—枕构造和角砾岩等典型的软沉积变形构造的地质记录,这些变形构造可能与印支构造运动期的地震活动有关。越靠近断裂带附近,软变形构造呈明显增加的趋势,表明震积岩的分布与龙门山和米仓山—大巴山构造活动有关。因此,研究该盆地须家河组震积岩,对了解控制盆地边界的龙门山和米仓山—大巴山造山带的活动史具有重要意义。     

Tectono–sedimentary Evolution of the Late Triassic Xujiahe Formation in the Sichuan Basin

The early stage of Sichuan Basin formation was controlled by the convergence of three major Chinese continental blocks during the Indosinian orogeny that include South China,North China,and Qiangtang blocks.Although the Late Triassic Xujiahe Formation is assumed to represent the commencement of continental deposition in the Sichuan Basin,little research is available on the details of this particular stratum.Sequence stratigraphic analysis reveals that the Xujiahe Formation comprises four third-order depositional sequences.Moreover,two tectono-sedimentary evolution stages,deposition and denudation,have been identified.Typical wedge-shaped geometry revealed in a cross section of the southern Sichuan Basin normal to the Longmen Shan fold-thrust belt is displayed for the entire Xujiahe Formation.The depositional extent did not cover the Luzhou paleohigh during the LST1 to LST2 （LST,TST and HST mean Iowstand,transgressive and highstand systems tracts,1,2,3 and 4 represent depositional sequence 1,2,3 and 4）,deltaic and fluvial systems fed sediments from the Longmen Shan belt,Luzhou paleohigh,Hannan dome,and Daba Shan paleohigh into a foreland basin with a centrally located lake.The forebulge of the western Sichuan foreland basin was located southeast of the Luzhou paleohigh after LST2.According to the principle of nonmarine sequence stratigraphy and the lithology of the Xujiahe Formation,four thrusting events in the Longmen Shan fold-thrust belt were distinguished,corresponding to the basal boundaries of sequences 1,2,3,and 4.The northern Sichuan Basin was tilted after the deposition of sequence 3,inducing intensive erosion of sequences 3 and 4,and formation of wedge-shaped deposition geometry in sequence 4 from south to north.The tilting probably resulted from small-scale subduction and exhumation of the western South China block during the South and North China block collision.     

四川含油气叠合盆地基本特征

随着近年来四川盆地油气勘探的不断突破,重新审视其基本地质特征和油气成藏特点变得迫切而必要.四川盆地是典型的叠合盆地,显生宙以来经历了震旦纪一中三叠世伸展体制下的差异升降和被动大陆边缘(海相碳酸盐岩台地)、晚三叠世-始新世挤压体制下的摺皱冲断和复合前陆盆地(陆相碎屑岩盆地)、渐新世以来的褶皱隆升改造(构造盆地)3大演化阶...     

环青藏高原盆山体系东段新构造变形特征——以川西为例

介于扬子板块与青藏高原之间的川西前陆冲断带是环青藏高原盆山体系东段的重要组成部分,它是研究喜马拉雅构造运动对青藏高原东缘沉积盆地构造作用的重要场所。本文分别选取川西南段、川西北段和川北西段米仓山前的区域构造地质剖面来研究沉积地层在喜马拉雅运动中发生的构造变形特征。通过前陆冲断构造变形带的宽度、水平缩短量,山体隆升、盆地沉降,新构造对早期古构造的叠加与改造关系的研究,揭示出在环青藏高原盆山体系内,造山带与盆地边缘的冲断构造变形从造山带向克拉通盆地内扩展的同时受欧亚大陆与印度板块碰撞及其远程效应的空间位置限制,靠近青藏高原的川西南段到远离它的川北西段,新构造变形强度、新构造变形范围、盆山耦合程度具有依次降低等特征。这种受环青藏高原盆山体系控制的前陆冲断带构造变形具有明显的资环效应,特别是对油气资源的聚集与分布有重要的影响,控制了川西南段晚期次生气藏发育,川西北段和川北西段的早期原生气藏的发育。     

Characteristics of Hydrocarbon Fluid Inclusions and Their Significance for Evolution of Petroleum Systems in the Dabashan Foreland, Central China

Field investigation combined with detailed petrographic observation indicate that abundant oil,gas,and solid bitumen inclusions were entrapped in veins and cements of sedimentary rocks in the Dabashan foreland,which were used to reconstruct the oil and gas migration history in the context of tectonic evolution.Three stages of veins were recognized and related to the collision between the North China block and the Yangtze block during the Indosinian orogeny from Late Triassic to Early Jurassic(Dl),the southwest thrusting of the Qinling orogenic belt towards the Sichuan basin during the Yanshanian orogeny from Late Jurassic to Early Cretaceous(D2),and extensional tectonics during Late Cretaceous to Paleogene(D3),respectively.The occurrences of hydrocarbon inclusions in these veins and their homogenization temperatures suggest that oil was generated in the early stage of tectonic evolution,and gas was generated later,whereas solid bitumen was the result of pyrolysis of previously accumulated hydrocarbons.Three stages of hydrocarbon fluid inclusions were also identified in cements of carbonates and sandstones of gas beds in the Dabashan foreland belt and the Dabashan foreland depression(northeastern Sichuan basin),which recorded oil/gas formation,migration,accumulation and destruction of paleo-reservoirs during the D2.Isotopic analysis of hydrocarbon fluid inclusions contained in vein minerals shows that δ~(13)C_1 of gas in fluid inclusions ranges from-17.0‰ to-30.4‰(PDB) and δD from-107.7‰ to-156.7‰(SMOW),which indicates that the gas captured in the veins was migrated natural gas which may be correlated with gas from the gas-fields in northern Sichuan basin.Organic geochemical comparison between bitumen and potential source rocks indicates that the Lower Cambrian black shale and the Lower Permian black limestone were the most possible source rocks of the bitumen.Combined with tectonic evolution history of the Dabashan foreland,the results of this study suggest that oil was generated from the Paleozoic source rocks in the Dabashan area under normal burial thermal conditions before Indosinian tectonics and accumulated to form paleo-reservoirs during Indosinian collision between the North China block and the Yangtz block.The paleo-reservoirs were destroyed during the Yanshanian tectonic movement when the Dabashan foreland was formed.At the same time,oil in the paleo-reservoirs in the Dabashan foreland depression was pyrolyzed to transform to dry gas and the residues became solid bitumen.     

中国海相盆地原型-改造分析与油气有序聚集模式

中国三大海相盆地原型及对油气形成原始物质条件的控制,古生代多次构造运动和中新生代差异性迭加改造对海相碳酸盐岩层系油气成藏、富集的控制作用,以及复杂构造区及超深层海相油气动态成藏过程与富集规律,是制约海相油气勘探发现的关键科学问题。研究认为,在不同板块构造旋回背景下,中国三大克拉通不同时期盆地原型及其沉积模式存在明显差别,可分为台内坳陷、被动大陆边缘和裂谷(陷)三大组合类型,其中被动大陆边缘可以分为陡坡、缓坡两种类型,形成了海相地层内多种类型的源-储配置关系;显生宙以来几次全球板块构造重组,特别是晚三叠世以来在多板块俯冲会聚构造格局下,三大海相克拉通盆地分别经历了4次迭加改造并形成了相应的陆相盆地原型,形成了多种类型的迭加改造地质结构,包括:山前带冲断-褶皱、差异沉降-隆升、多重滑脱构造、深断裂的走滑活动、构造-岩浆作用形成的相关构造;塔里木台盆区“大埋深、高压力、低地温”条件下的生烃抑制控制了油气分布,液态烃分布深度可以超过10 000 m,加里东中晚期和海西期古构造高部位控制了早期油气的运聚,燕山晚期—喜马拉雅期活动的走滑断裂带控制了晚期高熟油气的富集;四川盆地古隆起、古斜坡控制了原始油气聚集,形成了特殊的古油藏烃源灶,后期深埋裂解产生的油型裂解气成了大中型气田的主要气源,晚白垩世之后大规模褶皱变形和抬升剥蚀造成了盆地内流体压力系统重组再造,按照改造程度将油气聚集保存模式划分为:(1)弱改造型,常规、非常规气可在原位长期保存;(2)中改造型,常规气调整再成藏,页岩气规模富集;(3)强改造型,常规气藏大多遭破坏,部分非常规气藏得以保存。鄂尔多斯盆地奥陶系天然气具有“两源三向”的特征,天然气成藏与不整合面-地层层序界面、岩性-岩相变化密切相关,气藏普遍经历了一次调整过程。     

四川盆地东北部上三叠统须家河组四段物源分析

四川盆地东北部地区上三叠统须家河组须四段是油气勘探的重点层段,该地区的沉积受到多物源的影响.通过对研究区重矿物、碎屑组分、岩屑成分和古水流方向的分析,最终确定了研究区须四段的物源来自龙门山、大巴山和米仓山3个方向.其中,元坝西部地区物源来自于龙门山褶皱带方向;元坝东部地区物源来自大巴山褶皱带东南部方向;元坝中部部分地区表现为龙门山和大巴山的混合堆积;通南巴西部地区物源来自米仓山褶皱带方向,通南巴东部物源表现为大巴山和米仓山的混合堆积.     

塔里木盆地中南部麻扎塔格逆冲—褶皱带变形特征及其意义

麻扎塔格地区地层、地貌及构造变形特征的研究,对于认识塔里木盆地新生代构造演化过程、塔里木—西昆仑的盆山耦合关系、新构造运动对塔里木油气资源分布的影响以及塔克拉玛干沙漠的气候、环境变化都具有重要意义。本文通过卫星照片解译、野外变形观察、剖面实测、地球物理资料解释等手段,对该地区晚新生代的构造特征进行了研究,确定了麻扎塔格构造带为典型的逆冲—褶皱带,并探讨了麻扎塔格逆冲—褶皱带的构造指向、活动时限、隆升速率及缩短速率、东西方向的延伸等问题,取得如下认识:1)麻扎塔格逆冲—褶皱带为西昆仑山前陆褶皱冲断带的前缘部位,和田河气田就是处在逆冲前锋背斜顶部,晚新生代变形作用已明显地改造了塔里木盆地南部及中部的古生代和中生代构造,并促成了和田河气田的形成;2)麻扎塔格山在中新世末(约7 Ma)和中更新世(约780 ka B.P.)经历了两次构造隆升,后一次形成了麻扎塔格逆冲—褶皱带和麻扎塔格山现今的地貌特征;3)估算出麻扎塔格逆冲—褶皱带中更新世以来的隆升速率约为0.26～0.4 mm/a,缩短速率约为0.9 mm/a;4)认为麻扎塔格逆冲—褶皱带向西应与同属西昆仑山前褶皱—冲断带前缘的喀什背斜相连,东端的突然消失可能是由于东段和田河附近存在北东—南西向的走滑断层造成。     

秦岭南缘大巴山褶皱－冲断推覆构造的特征

秦岭造山带南缘的大巴山巨型逆冲推覆构造主要是在秦岭造山带板块俯冲碰撞造山与中、新生代以来陆内造山过程中长期复合作用形成的。详细的室内外构造研究表明,巴山逆冲推覆构造可以巴山弧形断裂带为界划分为北大巴山逆冲推覆构造和南大巴山逆冲推覆构造。北大巴山自北而南依次由安康－武当推覆体、紫阳－平利推覆体、高桥－镇坪推覆体和高滩推覆体逆冲叠置而成。南大巴山则以镇巴－阳日断裂为界,分为北部的前陆冲断褶皱带和南部的前陆褶皱带。北大巴山主要是印支期碰撞造山作用和燕山期陆内逆冲推覆作用叠加改造的结果,南大巴山则主要是燕山期递进变形过程中的产物。构造变形北强南弱,北以冲断褶皱变形为特征,南以皱褶作用为主;北部褶皱紧闭复杂,向南渐变为宽缓的薄皮构造。逆冲作用在时序上具有由北向南扩展传递的特点。     

Structural characteristics and evolution of the South Yellow Sea Basin since Indosinian

Based on the seismic data gathered in past years and the correlation between the sea and land areas of the Lower Yangtze Platform, the structural characteristics of the South Yellow Sea Basin since the Indosinian tectonic movement is studied in this paper. Three stages of structural deformation can be distinguished in the South Yellow Sea Basin since the Indosinian. The first stage, Late Indosinian to Early Yanshanian, was dominated by foreland deformation including both the uplifting and subsidence stages under an intensively compressional environment. The second stage, which is called the Huangqiao Event in the middle Yanshanian, was a change for stress fields from compression to extension. While in the third stage (the Sanduo Event) in the Late Himalayan, the basin developed a depression in the Neogene-Quaternary after rifting in the Late Cretaceous-Paleogene. The long-time evolution controlled 3 basin formation stages from a foreland basin, then a fault basin to a final depression basin. In conclusion, since the Indosinian, the South Yellow Sea Basin has experienced compressional fold and thrust, collisional orogen, compressional and tensional pulsation, strike-slip, extensional fault block and inversion structures, compression and convergence. The NE, NEE, nearly EW and NW trending structures developed in the basin. From west to east, the structural trend changed from NEE to near EW to NW. While from north to south, they changed from NEE to near EW with a strong-weak-strong zoning sequence. Vertically, the marine and terrestrial facies basins show a “seesaw” pattern with fold and thrust in the early stages, which is strong in the north and weak in the south and an extensional fault in later stages, which is strong in the north and weak in the south. In the marine facies basin, thrust deformation is more prevailing in the upper structural layer than that in the lower layer. The tectonic mechanism in the South Yellow Sea Basin is mainly affected by the collision between the Yangtze and North China Block, while the stress environment of large-scale strike-slip faults was owing to subduction of the Paleo-Pacific plate. The southern part of the Laoshan uplift is a weak deformation zone as well as a stress release zone, and the Meso-Paleozoic had been weakly reformed in later stages. The southern part of the Laoshan uplift is believed, therefore, to be a promising area for oil and gas exploration.