Characteristics and differential accumulation of oil/gas in Lower Paleozoic marine carbonate on northern slope of Tazhong Low Rise,Tarim Basin,NW China: a case study of Lower Ordovician Yingshan Formation

Marine carbonate reservoirs, as a focus of petroleum exploration and development all over the world, are involved with high exploration risk and prediction difficulty owing to high heterogeneity and diversity of reservoir beds. In the Tarim Basin, NW China, carbonate reservoirs with resources about 38 % of the whole basin in a large prospecting area are mainly distributed in the Cambrian and Ordovician in central (Tazhong) and northern (Tabei) Tarim. Recently on the northern slope, Tazhong Low Rise, Central Uplift, Tarim Basin, a breakthrough has been made in the karsted weathering crust of Lower Ordovician Yingshan Formation and reef-flat reservoir of Upper Ordovician Lianglitag Formation. As a new frontier of exploration, oil/gas distribution and controlling factors of carbonate reservoirs in the Yingshan Formation are not clearly understood. In this work, play elements of the Yingshan Formation, such as seal-reservoir bed assemblage, oil/gas properties, and faulting, were studied by core and slice observation and field investigation. High-quality reservoir beds of Yingshan Formation are quasi-layer distributed in the interstratal karst belt about 250 m below the unconformity. The reservoir beds of fracture–void and void are formed by faulting, associated fracturing, and karstification. The Yingshan Formation is a large-scale condensate gas reservoir with partly oil. Owing to different oil–gas infilling periods, isolated pools far from the faults are primarily oil in the Hercynian; oppositely, condensate gas reservoirs near the faults are intensely influenced by gas invasion during the Himalayan movement. Laterally, oil/gas distribution is controlled by stratal pinch-out and strike-slip faults. Vertically, cap rock of the third to fifth members of the Lianglitag Formation and Yingshan interior high resistivity layers are superimposed with Yingshan reservoir beds to form several seal-reservoir bed assemblages. Oil and gas are superimposed and affected by gas invasion with characteristics of oil in the upper horizon and gas in the lower horizon.     

T72界面与塔中隆起上奥陶统碳酸盐岩古岩溶储层

T7^2界面为上奥陶统桑塔木组泥岩与良里塔格组灰岩地震反射界面,是塔里木盆地塔中、塔北隆起上奥陶统内部的一个重要构造-层序转换面,是早古生代碳酸盐台地型沉积向陆源碎屑充填沉积转换的标志.过去普遍认为两个组之间为连续沉积,界面性质系海侵上超并赋予“淹没台地”的涵义.但随着近年塔河油田南部地区的勘探和塔中隆起区北缘Ⅰ号断裂带油气富集规律性的深入研究,表明T7^2界面是一个区域性的古暴露界面和沉积间断界面.界面之下的上奥陶统良里塔格组顶面有明显的削蚀和截切现象,残存厚度在塔北、塔中之间存在极大的差异,反映塔北隆起T7^2界面的构造及风化壳岩溶作用明显强过塔中隆起.古暴露和风化壳岩溶作用导致T7^2界面之下的良里塔格组碳酸盐岩广泛发育岩溶,是塔中低凸起北缘Ⅰ号断裂构造带的主要油气藏聚集层位;在塔河南部,形成了一套厚度最大可达300m并贯穿良里塔格组与下伏恰尔巴克组、一间房组和鹰山组的古岩溶洞穴系统,造就了塔河油田今天以南部斜坡区上奥陶统良里塔格组灰岩古岩溶洞穴系统为主要油气储层的勘探大场面.     

阿克库勒凸起于奇地区YQ3井奥陶系碳酸盐岩油气成藏研究

于奇地区是塔河油区外围重要的油气勘探地区．以成藏理论为指导，应用荧光薄片及流体包裹体分析等技术和方法，综合研究分析了于奇地区YQ3井区中下奥陶统鹰山组碳酸盐岩油气成藏条件及成藏主控因素．研究结果表明，YQ3井区鹰山组储层类型为洞穴型、裂缝．孔洞复合型和裂缝型，洞穴、溶蚀孔隙和中小型裂缝普遍发育，但洞穴充填相当严重；区域封盖和直接封盖能力较好，但海西晚期构造运动对本井区油气保存影响较大；至少发生了4次油气注入成藏期。即海西晚期、燕山期、喜山早期和喜山中期，其中最重要的油气注入成藏期为海西晚期和喜山期；油气藏形成主要受到3种因素的控制，即油气源区是控制本井区油气分布和富集的主要因素，盖层等保存条件是控制本井区油气分布和富集的关键因素，有效储集体发育程度是控制本井区油气分布和富集的重要因素．     

缝洞型碳酸盐岩油气分布规律及成藏条件：以塔中北斜坡东部鹰山组为例

缝洞型碳酸盐岩储集层具有强烈的非均质性,其油气成藏及富集规律极其复杂,充分认识此类油气藏的形成条件及分布特点对油气藏进一步勘探及有效开发至关重要。通过对东部井区的统计分析,目的层油气性质与I号断裂带及走滑断裂密切相关,平面上塔中北斜坡东部鹰山组油气具有“西油东气,内油外气”的分布特征,纵向上油气集中在不整合面以下200 m内,沿风化壳不整合面呈“准层状”分布。从源、储、盖、运等成藏要素角度对油气成藏控制因素进行了综合研究,结果表明：该研究区发育两套烃源岩,且经历了多期充注,为油气聚集提供了充足的物质基础;后期构造抬升及断裂活动促进岩溶作用的进行,改善了储层的储集性能,为油气富集提供了有利的场所;良三段到良五段致密灰岩分布广、厚度大,可以有效封闭油气,为油气聚集提供了较好的保存条件;塔中北斜坡东部断裂及不整合面是油气成藏的关键,沟通源岩为油气运移聚集提供了良好的通道。     

Hydrocarbon Accumulation Conditions of Ordovician Carbonate in Tarim Basin

<正>Based on comprehensive analysis of reservoir-forming conditions,the diversity of reservoir and the difference of multistage hydrocarbon charge are the key factors for the carbonate hydrocarbon accumulation of the Ordovician in the Tarim Basin.Undergone four major deposition-tectonic cycles, the Ordovician carbonate formed a stable structural framework with huge uplifts,in which are developed reservoirs of the reef-bank type and unconformity type,and resulted in multistage hydrocarbon charge and accumulation during the Caledonian,Late Hercynian and Late Himalayan. With low matrix porosity and permeability of the Ordovician carbonate,the secondary solution pores and caverns serve as the main reservoir space.The polyphase tectonic movements formed unconformity reservoirs widely distributed around the paleo-uplifts;and the reef-bank reservoir is controlled by two kinds of sedimentary facies belts,namely the steep slope and gentle slope.The unconventional carbonate pool is characterized by extensive distribution,no obvious edge water or bottom water,complicated oil/gas/water relations and severe heterogeneity controlled by reservoirs. The low porosity and low permeability reservoir together with multi-period hydrocarbon accumulation resulted in the difference and complex of the distribution and production of oil/gas/water.The distribution of hydrocarbon is controlled by the temporal-spatial relation between revolution of source rocks and paleo-uplifts.The heterogenetic carbonate reservoir and late-stage gas charge are the main factors making the oil/ gas phase complicated.The slope areas of the paleo-uplifts formed in the Paleozoic are the main carbonate exploration directions based on comprehensive evaluation.The Ordovician of the northern slope of the Tazhong uplift,Lunnan and its periphery areas are practical exploration fields.The Yengimahalla-Hanikatam and Markit slopes are the important replacement targets for carbonate exploration.Gucheng,Tadong,the deep layers of Cambrian dolomite in the Lunnan and Tazhong-Bachu areas are favorable directions for research and risk exploration.     

礁滩型油气成藏要素和塔中实例浅析

礁滩复合体油气成藏分析涉及到层序单元识别、生烃过程、孔隙类型和盖层圈闭这几个要素.这些因子受控于海平面变化、沉积占地理、成岩作用和构造演化史.塔中隆起区上奥陶统良里塔格组的大型礁滩体油气藏的构成是这些因素优化组合的结果,塔中北台缘I号波折带临近满加尔凹陷的烃源岩区,,浅水台地边缘形成数期生物礁和高能滩复合体,也是良里塔...     

塔里木盆地塔中礁滩体大油气田成藏条件与成藏机制研究

中国海相碳酸盐岩油气勘探近年来进展很快,发现了一批大型油气田。塔中地区是塔里木盆地的重点勘探区和富油气区,奥陶系蕴藏了丰富的油气资源。奥陶系良里塔格组受塔中I号坡折带的控制发育陆棚边缘礁滩体,储层性质为低孔-特低孔、低渗灰岩储层,埋深在4500~6500m。储层的形成和分布受早期高能沉积相带、溶蚀作用和断裂作用等因素的控制,有效储层的空间展布控制了油气的分布与大面积成藏。油源对比认为,塔中良里塔格组礁滩体油气藏的原油主要来自于中上奥陶统烃源岩,并混有寒武系烃源岩成因的原油;天然气主要来自于寒武系油裂解气,沿塔中I号坡折带断裂向内充注。成藏过程分析表明,塔中地区曾存在三期主要成藏期,第一期为加里东晚期成藏,油气来自于寒武系-下奥陶统烃源岩,但早海西期的构造运动,对该期油气破坏严重,造成大范围油藏破坏。第二期成藏期是晚海西期,也是塔中地区最重要的油气充成藏期,油气来自于中上奥陶统烃源岩。第三期成藏期是晚喜山期,受库车前陆冲断影响,台盆区快速沉降,埋深急速增大,寒武系原油裂解气形成,沿深部断裂向浅部奥陶系充注,对油藏进行气洗改造,从而形成大面积分布的凝析气藏。     

塔中北斜坡奥陶系鹰山组岩溶储层特征及古岩溶发育模式

塔中北斜坡奥陶系鹰山组碳酸盐岩古岩溶发育,油气资源丰富,具有广阔的勘探开发前景。本次利用岩石化学分析、岩芯钻井、地震测井及成像测井资料,对岩溶储层发育规律及岩溶缝洞发育模式进行研究。认为:鹰一段和鹰二段发育质纯厚层灰岩地层,属强岩溶层组,溶蚀孔,溶蚀裂缝及溶洞均发育,后期古岩溶作用是该区油气聚集的主要场所。垂向岩溶缝洞系统主要发育在鹰山组顶面以下0~50 m及80~180 m范围。同时,溶洞在该区发育,洞穴型岩溶是该区优质岩溶储层,钻井过程常伴有放空、水漏失现象。结合古地貌特征,建立了ZG18~ZG22井区古岩溶缝洞系统发育模式,为岩溶储层预测及勘探开发井位部署提供地质依据。      

塔里木盆地哈拉哈塘地区碳酸盐岩油气地质特征与富集成藏研究

塔里木盆地塔北隆起哈拉哈塘地区奥陶系由于现今构造位置低,埋深在6500~8000m,长期以来一直将其作为塔北隆起的一个次级凹陷单元,并认为是一个海相油气的生烃凹陷,制约了哈拉哈塘的油气勘探。本文通过对哈拉哈塘构造解析和沉降演化过程恢复,发现哈拉哈塘地区是从石炭纪才开始转为负向构造单元,加里东-早海西期,它属于轮南大型古潜山的西斜坡部位;奥陶系鹰山组-一间房组碳酸盐岩经历了多期岩溶的叠加改造,风化岩溶缝洞体储层发育。通过最新钻井资料及油气地球化学分析数据,证实哈拉哈塘奥陶系沉积时期不是生烃凹陷,不发育烃源岩,哈拉哈塘及其以北地区的油气是来自南部满西地区的中、上奥陶统烃源岩。油气藏解剖表明,哈拉哈塘地区在晚海西期成藏;三叠系沉积前北部构造抬升,导致奥陶系油藏遭受局部破坏和降解。自三叠纪沉积以来,奥陶系油藏一直处于持续深埋过程,盖层不断加厚,油藏基本保持了晚海西期成藏时的形态,因此,哈拉哈塘地区是一个古老的油气系统。油气成藏条件分析表明,哈拉哈塘地区油气成藏条件优越,生储盖条件配置良好,奥陶系碳酸盐岩岩溶储层广泛分布,并处在油气向古隆起高部位运移的有利路径上,具有大面积、准层状富集油气的特征。     

塔中地区中古48井区鹰山组二段碳酸盐岩储集层地震预测

塔中地区中古48井区储层集中发育在奥陶系鹰山组二段,该段又划分为上亚段和下亚段。依据钻井资料,标定了不同层段、不同物性储集层的地震反射特征。利用地震资料提取不同层段的地震振幅属性,开展了钻后储集层地震预测与描述。储集层划分为Ⅰ、Ⅱ、Ⅲ类三种级别,它们总体沿构造高地和断裂带分布。上亚段厚度110m左右,储集层主要分布在鹰山组顶面向下100 m的范围内,沿不整合面都很发育,但Ⅰ类储集层在构造低部位分布较少;下亚段厚度260 m左右,储集层主要分布在鹰山组顶面向下110～200 m的范围内,它与构造和断裂发育带的关系更为紧密,在构造较低部位欠发育。下亚段Ⅰ类储集层要明显多于上亚段,中古45井已在下亚段获得高产油气流,说明下亚段储集层也有很大的勘探潜力。本区应该坚持上、下亚段两套目的层并举的勘探方向。     

塔里木盆地塔中上奥陶统碳酸盐台地高频层序控制的早期成岩作用及其对储层分布的影响

上奥陶统良里塔格组碳酸盐岩是塔里木盆地塔中地区重要的油气储层。在碳酸盐岩岩石学、微相和测井曲线分析基础上,将塔中良里塔格组划分为5个四级层序、15个五级层序,建立了高频层序地层格架。显著的选择性溶蚀,悬垂型、新月型等大气水胶结物的发育,溶蚀孔壁较弱的阴极发光特征,粒内与粒间胶结物较低的Fe、Mn含量,亮晶颗粒灰岩的δ13C、δ18O与泥晶灰岩接近等特征表明,塔中地区Ⅰ号断裂带附近准同生期大气水溶蚀作用以及早期海水胶结作用普遍发育。对比分析显示大气淡水透镜体均发育于高频层序向上变浅旋回的顶部,即高频层序格架制约了早期成岩作用的形成分布。现在保存的早期成岩溶蚀孔面孔率可达到4%~5%,因此早期溶蚀孔的发育为晚期溶蚀改造提供了流体活动空间和条件,对碳酸盐岩有效储层的产出具有重要控制。综合分析提出,塔中Ⅰ号断裂坡折带TZ54-TZ826和TZ72-TZ62-TZ24井区等高陡型台缘是同生-准同生溶蚀孔发育的有利储层区。     

塔里木盆地塔中低凸起中古43井区碳酸盐岩油气属性分布特征及成藏模式

塔中地区中古44和中古10两条走滑断裂切割了塔中低凸起中古43井区,它们对油气输导具有控制意义。油气从中—下寒武统沿两条走滑断裂向上运移后,在下奥陶统鹰山组内向两侧输导,呈"T"字形的油气充注方式。从断裂向两侧,V/Ni值呈减小趋势,原油密度、黏度、含硫量和含蜡量等物性参数,距离断裂由近到远,均表现为逐渐变大的趋势,这些都证明油气是由走滑断裂向两侧运移的。水、油、气井的目的层海拔分别为-4 700 m以下、约-4 600～-4 500 m和-4 500 m以上;出油气层位在海拔-4500 m以上的井,平均气油比较高,在海拔-4 500 m以下的井,平均气油比较低。研究井区油气开发的连通半径平均约600 m,小于油气成藏的连通半径。在开发和成藏两种时间尺度下隔挡层的物性上限有着显著差别。     

塔里木盆地塔中45井区碳酸盐岩储层的深部流体改造作用

塔里木盆地塔中地区发育巨厚的下古生界海相碳酸盐岩,是该地区油气勘探的重要目标层系。塔中45井在上奥陶统灰岩储层内获得高产油气流。研究发现其含油气层段因萤石脉的改造而发育成为优质储层,这在已发现的塔中地区下古生界碳酸盐岩储层中为一独特储集体类型。综合多方面地质依据对萤石成因的分析结果表明,该储集层段是与该地区二叠纪岩浆作用有关的深部流体活动对碳酸盐岩储层改造的结果。深部流体通过溶蚀作用、交代作用和充填作用等对碳酸盐岩储层进行改造,形成深部流体改造型碳酸盐岩储集体。这一新的储集体类型的确立,对塔中地区下古生界碳酸盐岩层系油气勘探有着重要的现实意义。     

塔里木盆地塔中北斜坡奥陶系鹰山组深部优质岩溶储层的形成与分布

塔中地区是塔里木盆地的重点勘探区域,奥陶系鹰山组蕴藏了丰富的油气资源。鹰山组发育大套台地相碳酸盐岩,以高能相的台内滩沉积为主。鹰山组埋藏较深,但岩溶储层呈大面积厚层状分布。早奥陶世塔中I号断裂使得塔中隆起隆升并遭受强烈剥蚀形成下奥陶统鹰山组顶部风化壳,以孔洞型和裂缝-孔洞型储层为主。通过古地貌恢复、地震属性分析和地震测井联合波阻抗反演技术和方法识别溶洞发育带和断层裂缝发育带,确定出有利储层的分布范围。研究认为,岩性岩相是岩溶型储层发育的重要基础,层间岩溶控制了储层的成层性和横向展布规模,断裂和裂缝网络是岩溶水的主要渗滤通道,埋藏岩溶形成大量有效的缝洞空间,极大地提高了储集性能。研究发现,优质储层主要分布在鹰山组顶面以下120m地层厚度范围内,横向有一定连通性,在断层、构造裂缝和溶蚀作用下形成统一的储集体,呈准层状展布。     

Large-scale Tazhong Ordovician Reef-fiat Oil-Gas Field in the Tarim Basin of China

The Tazhong reef-flat oil-gas field is the first large-scale Ordovician organic reef type oil-gas field found in China.Its organic reefs were developed in the early Late Ordovician Lianglitag Formation, and are the first large reefs of the coral-stromatoporoid hermatypic community found in China.The organic reefs and platform-margin grain banks constitute a reef-fiat complex, mainly consisting of biolithites and grainstones.The biolithites can be classified into the framestone, bafflestone.bindstone etc.The main body of the complex lies around the wells from Tazhong-24 to Tazhong-82, trending northwest, with the thickness from 100 to 300 m, length about 220 km and width 5-10 km.It is a reef-flat lithologic hydrocarbon reservoir, with a very complex hydrocarbon distribution:being a gas condensate reservoir as a whole with local oil reservoirs.The hydrocarbon distribution is controlled by the reef complex.generally located in the upper 100-200 m part of the complex,and largely in a banded shape along the complex.On the profile,the reservoir shows a stratified feature.with an altitude difierence of almost 2200 m from southeast to northwest.The petroleum accumulation is controlled by karst reservoir beds and the northeast strike-slip fault belt. The total geologic reserves had reached 297.667 Mt by 2007.     

塔中北坡两顺地区志留系成藏条件及期次分析

通过对塔里木盆地塔中隆起及其北坡两顺地区志留系油气成藏地质条件分析,认为两顺地区志留系具备形成工业油气藏的条件。志留系油气显示层段储层包裹体的均一化温度和含盐度测定结果显示存在两个成藏期:早期和晚期。早期油藏遭受部分或全部被破坏,其中塔中地区已演化为沥青砂岩,两顺地区破坏程度相对较低;晚期成藏基本未被破坏,既可单独形成新的油气藏,也可对早期(残余)油藏进行再充注。对S1井油气钻井资料综合分析发现,两顺地区早期油气藏并未形成沥青砂岩,而是形成残余油藏并接受了晚期成藏阶段的油气再充注,推测从S1井到满加尔坳陷方向,存在志留系早期原生油气藏的可能性。     

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.     

塔中北斜坡富油气区油气分布规律与富集主控因素研究

塔里木盆地塔中北斜坡奥陶系油气藏类型多样、油气性质变化大、油气水分布复杂。通过对塔中北斜坡大量单井及其生产动态的分析解剖,结合分析化验资料,深入探讨了富油气区的流体分布特征、断裂发育特征、储层差异性以及典型高产井和出水井的对比,揭示了油气分布规律与控制因素。鹰山组顶部的风化壳型不整合面在垂向上控制了储层的发育深度范围和储层质量;平面上储层的非均质性是导致油气分布差异的重要原因。断裂引起的局部高差对流体聚集存在明显影响,使断裂上盘高部位更倾向于富油气,并发现断裂对储层改造强烈,特别是走滑断裂作为油气运移通道对油气分布具有重要的控制作用,决定了不同区域的古油藏在晚喜山期遭受气侵的强度,控制了不同相态油气藏的分布;奥陶系鹰山组上部发育的致密段对古油藏的保存具有积极的作用。该认识对相似地区碳酸盐岩油气富集规律研究及勘探开发具重要的参考价值。     

Reservoir geochemistry of the Tazhong Oilfield in the Tarim Basin, China, Part II. Migration, accumulation and mixing of crude oils

Measurements of the absolute and relative concentrations of nitrogen-containing compounds in crude oils from different reservoir strata (Ordovician, Silurian and Carboniferous) in the Tazhong region of the Tarim Basin, Xinjiang, China, showed that even though there are quite a number of factors affecting the distributional and compositional characteristics of neutral nitrogen-containing compounds in crude oils, the distributional and compositional characteristics of crude oils whose source conditions are approximate to one another are influenced mainly by the migration and fractionation effects in the process of formation of oil reservoirs. In addition, crude oils in the Tazhong region show obvious migration-fractionation effects in the vertical direction. Carboniferous crude oils are characterized by high migration parameters and low compound concentrations, just in contrast to Ordovician crude oils. This indicates that crude oils from shallow-level oil reservoirs were derived from those of deep-level oil reservoirs via faults, unconformable contact or carrier beds. Crude oils from the Tazhong region show some migration-fractionation effects in the lateral direction, but mixing of crude oils derived from different hydrocarbon source rocks in the process of formation of oil reservoirs made it more complicated the migration and accumulation of crude oils, as well as the formation of oil reservoirs.     

塔里木盆地二叠纪火山-岩浆活动对古生界生储条件的影响--以塔中47井区为例

塔里木盆地古生界地层是油气勘探的重要层段,勘探开发实践证明,古生界地层中的生储盖组合及油气体系受到了二叠纪大量、长期、多阶段火山-岩浆活动的强烈影响,然而,其影响规律尚不清楚。研究选取塔中47井区的三口重点油气探井,对志留系-石炭系油砂样品进行气相色谱-质谱分析,并完成了砂岩的成岩作用及储集空间研究,结合井区三维地震解释,从有机质、储层、成藏等方面研究了二叠纪火山-岩浆活动对古生界生储条件的影响。结果表明,塔中47井所钻遇的大型火山机构,其火山-岩浆活动可以提高下伏地层中有机质的成熟度,增强储层中酸性流体对钙质胶结物的溶蚀作用,促进次生孔隙形成进而发育优质储层。靠近火山机构的油气储层受改造作用更强烈,其储集性能更好,以火山机构为中心,横向上依次分布储层显著改善区域、储层破坏区域和储层基本未受影响区域,储层改善作用的影响范围大约为6 km。储层演化与油气综合成藏与二叠纪火山-岩浆活动有一定的对应性和关联性,火山-岩浆活动直接促进了油气运移和油气藏的形成。