Early Cenozoic paleontological assemblages and provenance evolution of the Lishui Sag,East China Sea

The East China Sea Shelf Basin generated a series of back-arc basins with thick successions of marine-and terrestrial-facies sediments during Cenozoic.It is enriched with abundant oil and gas resources and is of great significance to the petroleum exploration undertakings.Therein,the Lishui Sag formed fan delta,fluvial delta and littoral-to-neritic facies sediments during Paleocene–Eocene,and the research on its sedimentary environment and sediment source was controversial.This study analyzed the paleontological combination characteristics,and conducted a source-to-sink comparative analysis to restore the sedimentary environment and provenance evolution of the Lishui Sag during Paleocene–Eocene based on the integration of detrital zircon U-Pb age spectra patterns with paleontological assemblages.The results indicated that Lishui Sag was dominated by littoral and neritic-facies environment during time corroborated by large abundance of foraminifera,calcareous nannofossils and dinoflagellates.Chronological analysis of detrital zircon U-Pb revealed that there were significant differences in sediment sources between the east and west area of the Lishui Sag.The western area was featured by deeper water depths in the Paleocene–Eocene,and the sediment was characterized by a single Yanshanian peak of zircon U-Pb age spectra,and mainly influenced from Yanshanian magmatic rocks of South China Coast and the surrounding paleo-uplifts.However,its eastern area partly showed Indosinian populations.In particular,the upper Eocene Wenzhou sediments were featured by increasingly plentiful Precambrian zircons in addition to the large Indosinian-Yanshanian peaks,indicating a possible impact from the Yushan Low Uplift to the east.Therefore,it is likely that the eastern Lishui Sag generated large river systems as well as deltas during time.Due to the Yuquan Movement,the Lishui Sag experienced uplifting and exhumation in the late stage of the late Eocene and was not deposited with sediments until Miocene.Featured by transitional-facies depositions of Paleocene–Eocene,the Lishui Sag thus beared significant potential for source rock and oil-gas reservoir accumulation.

Geochemistry of the Paleocene Clastic Rocks in Lishui Sag, East China Sea Shelf Basin： Implications for Tectonic Background and Provenance

The Lishui Sag, in the East China Sea Shelf Basin, is rich in hydrocarbons, with the major hydrocarbon-bearing layers being the Paleocene Mingyuefeng clastic rocks. Analysis of the implicit geologic background information of these Paleocene clastic rocks using petrological and geochemical methods has significant practical importance. These Paleocene sandstones are mainly lithic arenite, lithic arkose and greywacke, composed of K-feldspar, plagioclase, authigenic clays, silica and carbonates. As continental deposits, Yueguifeng clastic rocks have high aluminosilicate and mafic detritus contents, while the Lingfeng and Mingyuefeng Formations are rich in silica due to an oscillating coastal marine depositional environment. The major element contents of these Paleocene sandstones are low and have a concentrated distribution, indicating that the geochemical composition is non-epigenetic, transformed by sedimentary processes and diagenesis. The Yueguifeng detritus comprises recycled sediments, controlled by moderate weathering and erosion, while the Lingfeng and Mingyuefeng detritus is interpreted as primarily first-cycle materials due to low chemical weathering. In the Late Cretaceous to Early Paleocene, the Pacific Plate began subducting under the Eurasian Plate, causing an orogeny by plate collision and magma eruption due to the melting of subducted oceanic crust. This resulted in the dual tectonic settings of ＂active margin＂ and ＂continental island arc＂ in the East China Sea Shelf Basin. During the Late Paleocene, the Pacific Plate margin migrated eastward along with development of the Philippine Ocean Plate, and the tectonic setting of the Lishui Sag gradually turned into a passive continental margin. Detrital sources included both orogenic continental blocks and continental island arcs, and the parent rocks are primarily felsic volcanic rocks and granites.

Recovery of the Erosion Thickness and Characterization of the Paleogeomorphology in the Southern Lishui Sag, East China Sea Shelf Basin

The restoration of the denudation thickness is the basis for quantitatively analyzing the basin burial history,thermal evolution history and hydrocarbon accumulation conditions.The well data is not sufficient to do this in the southern Lishui Sag with only 5 wells,so the new,high-quality three-dimensional(3D)seismic data is essential.The methods employed to determine the eroded thicknesses of key unconformities in the study area are the mudstone acoustic time difference(AC)method,vitrinite reflectance(Ro%)method and stratigraphic trend comparison method.On the basis of the structural evolution,the restoration of the paleogeomorphology is carried out.The results show that the Wenzhou formation(E2 w)in the entire study area has been all denuded.The denudation thickness is in the range of 0–550 m,and decreases gradually from west,thicker than 200 m,to east.The erosion of the upper Lingfeng formation(E1l)are mainly occurred in the N-P-1 structural trap(N-P-1),the N-P-2 structural trap(N-P-2)and the N-P-3 structural trap(N-P-3).Among them,the eroded area in N-P-1(near well S-1)and N-P-2 is 200–230 km^2,and the denudation thickness is 0–600 m,which increases from south to north,even up to 200–400 m in the region around well S-1.In N-P-3,the extent of denudation is 30–50 km^2,and the denudation thickness is 0–400 m.In the early stage of the upper E1 l,one north-south strike slip fault began to develop in the southern study area.Affected by this fault,the southern Lingfeng bulge was offset,forming a gorge,and the eastern and western sides of the concave belt connected to each other.On the basis of the paleo-geomorphological characteristics,it is shown that the sedimentary center of the west subsag began to migrate to the south.

Comparison of the Pore Structure of Ultralow-Permeability Reservoirs Between the East and West Subsags of the Lishui Sag Using Constant-Rate Mercury Injection

In this study, the differences in reservoir parameters, such as pore radius, throat radius, and pore-throat ratio, between the east and west subsags of the Lishui Sag are analyzed by using data obtained from a constant-rate mercury injection experiment. Furthermore, the quality of the reservoirs in the two subsags is systematically evaluated. Results show that the throat radius of the Lishui west subsag is larger than that of the east subsag, and this parameter has a positive correlation with reservoir quality. However, the pore-throat ratio of the east subsag is larger than that of the west subsag, which has an inverse relationship with reservoir quality. The main reasons for this reservoir difference can be attributed to sedimentation and diagenesis. The sedimentary facies types of the Lishui east subsag are the fan delta, shore lake, shallow lake, and shore shallow lake;their sandstone composition maturity is low;the clay mineral content is high;and the rock has undergone strong diagenesis. Therefore, the physical conditions of the reservoir are poor. However, the sandstones in the Lishui west subsag have weak cementation and compaction, mainly with an intergranular pore structure type, which leads to good connectivity between pores. Therefore, the storage performance and seepage capacity of the Lishui west subsag are better than those of the east subsag;the west subsag is the main area of oil and gas accumulation, as confirmed in the process of exploration and development.

Base level changes based on Basin Filling Modelling:a case study from the Paleocene Lishui Sag,East China Sea Basin

Estimation of base level changes in geological records is an important topic for petroleum geologists.Taking the Paleocene Upper Lingfeng Member of Lishui Sag as an example,this paper conducted a base level reconstruction based on Basin Filling Modelling(BFM).The reconstruction was processed on the ground of a previously interpreted seismic stratigraphic framework with several assumptions and simplification.The BFM is implemented with a nonlinear diffusion equation solver written in R coding that excels in shallow marine stratigraphic simulation.The modeled results fit the original stratigraphy very well.The BFM is a powerful tool for reconstructing the base level,and is an effective way to check the reasonableness of previous interpretations.Although simulation solutions may not be unique,the BFM still provides us a chance to gain some insights into the mechanism and dynamic details of the stratigraphy of sedimentary basins.

Classification and origin of natural gases from Lishui Sag,the East China Sea Basin

Natural gases discovered up to now in Lishui Sag,the East China Sea Basin,differ greatly in gaseous compositions,of which hydrocarbon gases amount to 2%―94%while non-hydrocarbon gases are dominated by CO2.Their hydrocarbon gases,without exception,contain less than 90%of methane and over 10%of C2 + heavier hydrocarbons,indicating a wet gas.Carbon isotopic analyses on these hydrocarbon gases showed thatδ13C 1 ,δ13C 2 andδ13C 3 are basically lighter than-44‰,-29‰and-26‰, respectively.The difference in carbon isotopic values between methane and ethane is great,suggesting a biogenic oil-type gas produced by the mixed organic matter at peak generation.δ13C CO2 values of nonhydrocarbon gases are all heavier than-10‰,indicating a typical abiogenic gas.The simulation experiment on hydrocarbon generation of organic matter in a closed gold-tube system showed that the proportion of methane in natural gases produced by terrigenous organic matter in the Lingfeng Formation marine deposit is obviously higher than that in natural gases derived from the aquatic and terrigenous mixed organic matter in the Yueguifeng Formation lacustrine deposit,consequently the proportion of heavier hydrocarbons of the former is remarkably lower than that of the latter.Moreover, δ13C 1 values of natural gases produced by terrigenous organic matter in the Lingfeng Formation marine deposit are about 5‰heavier than those of natural gases derived from the aquatic and terrigenous mixed organic matter in the Yueguifeng Formation lacustrine deposit whileδ13C 2 andδ13C 3 values of the former are over 9‰heavier than those of the latter.Currently the LS36-1 oil-gas pool is the only commercial oil-gas reservoir in Lishui Sag,where carbon isotopic compositions of various hydrocarbon components differ greatly from those of natural gases produced by the Lingfeng Formation organic matter but are very similar to those of natural gases derived from the Yueguifeng Formation organic matter,therefore,natural gases in the LS36-1 oil-gas pool are mainly derived from the Yueguifeng Formation lacustrine source rock rather than the Lingfeng Formation marine or Mingyuefeng Formation coal-measures source rocks.

CO_(2)对东海盆地丽水凹陷丽水36-1气田成藏的影响

从宏观地质、微观地化相结合的角度对丽水西次凹丽水36-1气田进行精细解剖,揭示了丽水西次凹油气成藏规律。研究结果表明:(1)丽水西次凹灵峰组普遍发育超压,垂向上分为3个带:超压封闭箱、对流层、深部流体滞留层。(2)丽水西次凹垂向上明显的分层结构导致构造带油气充注具有三阶段,二者之间具有良好的对应关系:底部超压封闭箱和顶部滞留层范围内包裹体均一温度分布为正常充注现象,而在中部对流层均一温度表现出幕式充注的特征。(3)丽水36-1构造带具有超压封盖、异常热流体突破改造的成藏模式。早期油气被封盖在灵峰组超压带之下,后期由于幔源岩浆的剧烈活动,幔源CO_(2)携带原生油藏向上运移,在明月峰组区域盖层的作用下聚集成藏,形成现今的丽水36-1气田。

基于对应分析的丽水-椒江凹陷潜山岩性识别方法

随着丽水-椒江凹陷油气勘探扩展至潜山油藏,钻井揭示花岗岩、片麻岩、灰岩等岩性地层;加之应用了钻井新工艺,录井岩屑细小、混杂,现场准确识别岩性难度较大。为了解决此问题,基于XRD衍射和XRF元素录井资料,利用ReliefF算法筛选了对潜山及上覆地层敏感的8种元素和4种矿物,将筛选出的元素、矿物作为原始数据集的特征参数进行对应分析,构建了花岗岩、片麻岩、灰岩等岩石岩性的H_(1)与H_(2)函数,并建立了复杂岩性的识别图版。其中,花岗岩的H_(1)和H_(2)分别为-3.0~1.0和1.0~3.0,片麻岩的H_(1)和H_(2)分别为-4.0~0和-2.5~1.0,灰岩的H_(1)和H_(2)分别为0.5~2.5和-9.0~-3.0,砂砾岩的H_(1)和H_(2)分别为2.5~10.0和-1.0~2.5,泥岩的H_(1)和H_(2)分别为-1.0~3.5和-1.0~0.5。丽水-椒江凹陷潜山油气区6口井应用了基于对应分析的岩性识别方法,识别复杂岩性的准确率达90.7%,可为钻井施工安全及潜山储层综合评价提供技术支持。

丽水-椒江凹陷月桂峰组湖相烃源岩的主控因素与分布预测

月桂峰组是丽水-椒江凹陷的主力烃源岩层系。丽水-椒江凹陷在月桂峰组沉积时期为强断陷期,构造分割性强,沉积环境相对封闭,内部多个次洼的湖相烃源岩发育特征不清。为明确丽水-椒江凹陷内各富烃次洼中月桂峰组烃源岩发育条件及空间展布规律,进一步指导该区的油气勘探,利用钻井、岩芯、地球物理、地球化学及古生物等资料,基于湖盆演化动态全生命周期过程,提出“早期断层活动速率、中期母岩性质和遮挡条件、晚期火山活动”联合控制丽水-椒江凹陷4个次洼优质烃源岩的发育。在地质认识约束下,基于多属性神经网络深度学习,对中-深湖相烃源岩的空间展布进行了定量刻画。结合优质烃源岩的发育机制和中-深湖相烃源岩分布范围,对4个主要次洼内烃源岩的发育情况进行综合评价。结果表明,椒江A洼为Ⅰ类富烃次洼,丽水A洼和丽水C洼为Ⅱ类次富烃次洼,丽水B洼为Ⅲ类生烃次洼。

东海盆地丽水凹陷仙桥低凸起构造特征及其控砂模式

现有钻探成果表明,落实仙桥低凸起以东砂体发育范围是丽水凹陷北部下一步油气勘探部署的关键。以三维地震为基础,结合周边探井资料,开展构造演化、构造样式、断裂体系及断层活动性研究,分析仙桥低凸起构造特征,进而从构造角度总结低凸起对东部主洼的沉积控制作用。仙桥低凸起为丽水凹陷断陷期发育的坡垒构造,发育地垒和半地垒两种构造样式,西倾主控断层仙桥大断裂为初始裂陷期多条独立断层生长、连接发育而成的断裂带,断陷末期断层硬连接区逐渐演化为断裂转换带。强断陷期仙桥大断裂活动性强,低凸起沉积控制作用主要表现为断层控砂;断陷末期在断裂转换带疏导下水系越过低凸起输入东部主洼,形成转换带控砂。围绕断陷末期断裂转换带,在仙桥低凸起东部落实南、北两支大型三角洲沉积体,为该区的油气勘探明确了方向。

东海陆架盆地丽水-椒江凹陷构造演化特征及其与油气成藏的关系

东海陆架盆地丽水-椒江凹陷经历了复杂的构造运动过程,目前已发现多个含油气构造,但仍未取得大规模商业油气发现,油气勘探未能突破的主要原因在于对其构造演化特征认识不清。基于最新采集的三维地震和钻井资料,通过断裂特征的精细刻画、平衡剖面恢复、已钻井地球化学特征分析等方法,对丽水-椒江凹陷的构造演化特征及其与油气成藏的关系进行了深入分析。结果表明:丽水-椒江凹陷主要发育3套断裂系统,包括深部断裂系统、浅部断裂系统和贯穿断裂系统,控制了凹陷整体东断西超,内部南北分区东西分带的构造格局;凹陷演化共经历4个阶段,包括晚白垩世—古新世断陷期、始新世初期坳陷期、始新世末期—渐新世抬升剥蚀期以及新近纪—第四纪沉降期,不同断裂系统形成于不同演化阶段,并对凹陷结构具有差异控制作用;断陷期发育的灵峰组厚层泥岩阻挡了油气的垂向运移,且深部断裂与浅部断裂在纵向上各自独立,互不连通,油气垂向运移不畅,限制了油气在烃源岩及邻近层位成藏,确定了丽水-椒江凹陷“近源下洼”的油气勘探方向。研究成果可为丽水-椒江凹陷的油气勘探提供基础理论支撑。

丽水凹陷明下段强制海退体系域油气地质意义

丽水凹陷油气勘探思路正逐步转向“近源下洼”,寻找入洼发育的具有优质物性条件的岩性圈闭是获得油气勘探成功的关键之一。通过地球物理、地质分析等方法在丽水凹陷西次凹明月峰组底部识别出一套强制海退体系域沉积,具有储层物性好,易形成岩性圈闭、有利于捕获油气的有利成藏条件,这类圈闭的探索对油气勘探具有重要的地质意义。

东海陆架盆地丽水凹陷古新统物源分析及地质意义

东海陆架盆地古新统的物源演化是控制该地区沉积充填演化的主要因素。物源特征分析在盆地勘探开发方面具有重要意义。基于东海陆架盆地丽水凹陷古新统的取心样品开展系统的岩石学及矿物学特征分析,通过砂岩碎屑组分、轻、重矿物组合及相关参数的时空分布研究,探讨研究区古新统物源体系演化及其对盆地沉积充填的指示意义。丽水凹陷古新统碎屑岩主要为岩屑长石砂岩、长石岩屑砂岩和岩屑砂岩,砂岩以中等—较好分选为主,颗粒多为次棱角状—次圆,整体磨圆较差,指示结构成熟度和成分成熟度相对较低。古新统月桂峰组—灵峰组在盆地不同部位的轻矿物组合特征明显不同且分带性明显:西次洼中部和北部以再旋回造山带母岩类型为主;西次洼南部则以再旋回造山带和岩浆弧母岩类型为主;东次洼以再旋回造山带母岩类型为主。研究区古新统各主要层位的重矿物组合特征变化较小,西部浙闽隆皱带和东部雁荡凸起为丽水凹陷最重要的物源区,盆内灵峰低凸在明月峰组下段沉积之前遭受严重剥蚀,向盆内提供局部物源。丽水凹陷古新统的物源体系分析表明,月桂峰组—灵峰组沉积期处于盆地断陷初期—断陷高峰期,盆内断隆发育形成盆内物源区,灵峰组上段沉积时盆地开始进入断陷后期,不再发育局部盆内物源,主体以盆外物源体系为主。

东海陆架盆地丽水凹陷古新统源-汇系统耦合及时-空演化

受构造幕式多期活动和盆内外多物源水系影响,断陷湖盆源-汇系统形成过程复杂,但不同构造阶段的源-汇系统耦合及时-空演化仍处于初步研究阶段。以东海陆架盆地丽水凹陷古新统为例,基于地震、测井、岩心、薄片及重矿物等资料,综合盆地物源体系分析、搬运体系识别与定量追踪、沉积体系刻画及半定量表征,重建了源-汇系统。研究结果表明:断陷早期,盆地多孤立、小型沉积中心,构造活动速率较低,物源供给较少,陡坡带发育较多小规模扇三角洲,缓坡带受先存水系影响,发育小规模辫状河三角洲;断陷强烈期,受灵峰主断裂强烈活动影响,物源供给充足,陡坡带扇三角洲规模增大但数量减少,缓坡带辫状河三角洲规模增大并相互合并;断陷晚期,陡坡带源-汇系统逐渐消亡,缓坡带受全球海平面快速下降影响,河流下切作用增强,在坡折带下发育大规模盆底扇沉积体系。受构造-沉积格局、母岩类型及边界条件联合控制,丽水凹陷不同构造阶段共发育5种源-汇系统,分别为:①缓坡带北部变质岩为主-SE向U型古沟谷-远源辫状河三角洲;②缓坡带中-南部火山岩为主-NE向断槽/SE向V/U型古沟谷-远源辫状河三角洲/盆底扇;③灵峰凸起北段侵入岩为主-SW向古沟谷-近源扇三角洲;④灵峰凸起中-南段火山岩(早)-变质岩(晚)-SW向古沟谷/NE向断槽-近源扇三角洲;⑤雁荡凸起侵入岩和变质岩-SW/S向古沟谷-近源扇三角洲/辫状河三角洲。物源搬运通道参数半定量统计结果表明,缓坡带古沟谷/断槽宽、浅,陡坡带古沟谷/断槽窄、深;断陷早期和晚期物源搬运通道横截面积与盆内对应沉积体面积具有较好的正相关性。

丽水凹陷基岩岩性分布预测——以丽水A洼为例

东海陆架盆地丽水凹陷基岩潜山十分发育,钻井已证实其含油气性,勘探潜力巨大。综合现有基岩岩芯、铸体薄片、测井、测年、三维地震资料,在构建基岩岩相-地震相模板及岩石物理分析的基础上,对丽水凹陷基岩岩性开展定性和半定量预测,进而预测岩性平面分布特征。丽水凹陷基岩主要由片麻岩、花岗片麻岩、花岗岩组成,片麻岩为古元古界变质岩陆核,花岗岩来自中生代岩浆,沿深大断裂上涌侵入。地震剖面上片麻岩表现为中−高频,中−强振幅,同相轴连续性、成层性好;花岗岩表现为中−低频,弱−中振幅,呈杂乱反射;花岗片麻岩地震相介于前二者之间。岩石物理分析结果显示,密度参数对岩性区分效果最好,叠前密度反演能较好地半定量预测基岩分布特征。研究表明,丽水A洼主体基岩纵向呈片麻岩上覆花岗岩的二元结构特征;平面上不同构造单元的基岩顶面岩性各异,凸起区花岗岩剥蚀程度高,基岩为片麻岩或花岗片麻岩,洼槽区缺乏深大断裂,为原始区域片麻岩基底,其他区域为花岗岩。

东海丽水凹陷始新统温州组浪控三角洲-浊积扇沉积特征及沉积模式

东海陆架盆地丽水凹陷是重要的油气勘探区。为了加快浅层始新统温州组岩性圈闭勘探,利用新采集的三维地震、地质资料,运用层序地层学理论方法,对温州组进行层序地层划分,将其划分为SQ1、SQ2、SQ3共3个三级层序,其中,SQ1发育典型的低位、海侵和高位体系域,SQ2仅发育海侵和高位体系域。各体系域地震反射终止关系和地震相差异明显。本次研究重点是对SQ1低位域沉积平面展布特征进行刻画。SQ1低位域发育浪控三角洲-浊积扇沉积体系,沉积微相以三角洲前缘滨岸砂坝和薄层灰岩浅滩为主,垂向叠置样式以进积为主。根据浪控三角洲和浊积扇的沉积特征,建立了温州组SQ1低位域浪控三角洲-浊积扇沉积模式。本次研究厘清了低位域三角洲-浊积扇沉积体系的展布特征和形成机制,以期为在始新统温州组寻找岩性圈闭提供参考。

东海陆架盆地丽水西凹古新统砂岩储层成岩作用及成岩演化

东海陆架盆地丽水西凹古新统发育多种类型储层,通过4口典型井的岩心薄片鉴定、物性测试、碳氧同位素测试等手段,对丽水西凹古新统砂岩储层成岩作用、成岩演化和孔隙演化进行了研究。结果表明:(1)丽水西凹古新统砂岩储层以浅海-三角洲相中细粒岩屑砂岩为主,成分成熟度与结构成熟度较低,矿物组成以岩屑为主,石英、长石次之;(2)砂岩经历了机械压实、碳酸盐岩与黏土矿物胶结、长石溶蚀等成岩作用,灵峰组下段砂岩储层碳酸盐胶结物形成于淡水成岩环境,明月峰组及灵峰组上段砂岩储层碳酸盐胶结物形成于混合水成岩环境,恢复的成岩温度介于76~141℃之间;(3)古新统明月峰组下段及灵峰组上段砂岩处于早成岩B期,灵峰组下段及月桂峰组砂岩处于中成岩A期;(4)砂岩储层经历了压实减孔(-18.3%)、早期胶结减孔(-3.9%)、溶蚀增孔(+4.8%)、晚期胶结减孔(-6.7%)的孔隙演化过程,各套砂岩储层经历了差异化的成岩演化过程,分别发育以机械压实作用、碳酸盐岩与黏土矿物胶结作用、不稳定碎屑溶蚀作用为主要特征的成岩演化类型。明月峰组下段及灵峰组上段砂岩发育优质储层,灵峰组下段和月桂峰组砂岩以更具勘探难度的非常规致密砂岩储层为主,研究成果对深入认识丽水西凹古新统砂岩储层,指导油气勘探具有重要意义。

元素录井定量化岩性识别技术在丽水-椒江凹陷潜山中的应用

潜山勘探作为丽水-椒江凹陷的重点领域之一,随着潜山勘探的不断深入,钻遇的潜山岩性越来越复杂,加上钻井速度越来越快,给随钻岩性快速准确识别带来了困难,导致作业安全和时效性无法得到保障。该研究基于X射线元素录井(XRF)资料,应用数理统计及数据降维的分析理论,建立了研究区多手段潜山岩性定量化识别方法:首先通过ω(Fe+Mg)-ω(Na+K)交会图版快速准确进行现场潜山岩性初步划分;然后通过TAS图版对岩浆岩进一步细化分类;最后基于线性判别(LDA)降维分析对研究区四种主要岩性进行三维立体识别。通过建立潜山岩性多手段识别方法,从而达到潜山基底岩性随钻快速定量化识别评价的目的。

丽水凹陷潜山裂缝发育特征及预测——以A洼为例

东海盆地丽水凹陷基岩潜山成带发育,钻井已证实其含油气性,勘探潜力巨大。本文综合现有潜山岩心、成像测井及三维地震资料开展岩心裂缝综合分析及测井识别,利用叠后蚂蚁体属性和叠前裂缝强度对潜山不同尺度裂缝展开预测。研究表明,丽水凹陷潜山裂缝以中高角度构造裂缝为主,北东-南西走向,形成主要受区域构造活动控制;丽水A洼灵峰潜山裂缝发育程度高于仙桥潜山,研究区发育3个各尺度裂缝均较为发育的潜山勘探目标,是丽水凹陷下一步潜山领域勘探的有利方向。

丽水凹陷幔源CO_(2)充注对油气成藏的影响

丽水凹陷勘探中发现了许多圈闭含CO_(2),同位素分析显示以幔源无机成因为主。凹陷深大断裂附近未发现含CO_(2)气藏,而已发现CO_(2)气藏周边均有岩浆活动发育,故认为丽水凹陷幔源CO_(2)运聚与岩浆幕式活动必然存在联系。因此,油气勘探中为规避风险需开展岩浆活动期次与油气成藏期分析、关注岩浆活动区与圈闭距离、识别CO_(2)的断裂-砂体运移通道与圈闭的空间接触关系等。结合丽水凹陷烃源岩生排烃关键期和圈闭分布分析,认为烃源岩生烃高峰(56 Ma)后的第Ⅲ期(23.03 Ma)岩浆活动带来的幔源无机CO_(2)充注对油气藏可能具有占位和破坏作用,位于岩浆体纵向上直接与其搭接或与岩浆岩通过断裂间接搭连的圈闭含CO_(2)风险高。该研究结果对丽水凹陷油气勘探具有指导意义。