Vertical Differential Structural Deformation of the Main Strike-slip Fault Zones in the Shunbei Area,Central Tarim Basin:Structural Characteristics,Deformation Mechanisms,and Hydrocarbon Accumulation Significance

Vertical differential structural deformation(VDSD),one of the most significant structural characteristics of strike-slip fault zones(SSFZs)in the Shunbei area,is crucial for understanding deformation in the SSFZ and its hydrocarbon accumulation significance.Based on drilling data and high-precision 3-D seismic data,we analyzed the geometric and kinematic characteristics of the SSFZs in the Shunbei area.Coupled with the stratification of the rock mechanism,the structural deformations of these SSFZs in different formations were differentiated and divided into four deformation layers.According to comprehensive structural interpretations and comparisons,three integrated 3-D structural models could describe the VDSD of these SSFZs.The time-space coupling of the material basis(rock mechanism stratification),changing dynamic conditions(e.g.,changing stress-strain states),and special deformation mechanism of the en echelon normal fault array uniformly controlled the formation of the VDSD in the SSFZs of the Shunbei area.The VDSD of the SSFZs in this area controlled the entire hydrocarbon accumulation process.Multi-stage structural superimposing deformation influenced the hydrocarbon migration,accumulation,distribution,preservation,and secondary adjustments.

Distribution regularity of the Ordovician reef-bank reservoir inside sequence stratigraphic ework in central Tarim Basin

Based on the integrated study of the outcrops, the seismic, drilling and logging data of Lianglitage formation in central Tarim Basin, the sequence stratigraphic framework of the platform margin is built, and the Lianglitage formation is divided into 3 third-order sequences. The vertical pattern and lateral distribution for carbonate reef-bank reservoir in sequence stratigraphic framework are analyzed. The reef-bank reservoir mainly developed in highstand system tract of sequence Ssq2, and distributed along the carbonate platform margin of the Middle-Late Ordovician in central Tarim Basin. The mudstone mound, organic reef, granule bank are vertically stacked. Laterally, the area of well shun3-shun4-shun2-shun6 are characterized by multiphase bank reservoir overlapping, and the area of well TZ82 -TZ44 - TZ161 -TZ24 - TZ26 are characterized by multiphase organic reef and bank overlapping. The reef-bank complexes in sequence Ssq2 are the main targets of exploration in central Tarim Basin.

Application of Stable Strontium Isotope Geochemistry and Fluid Inclusion Microthermometry to Studies of Dolomitization of the Deeply Buried Cambrian Carbonate Successions in West-Central Tarim Basin, NW China

Detailed petrographic,geochemical(O-C-Sr isotopes)and fluid inclusion studies of the deeply buried Cambrian carbonates in the West-central Tarim Basin revealed three types of crystalline dolomites(fine-crystalline,nonplanar-a(s),dolomite(RD1),fine-to medium-crystalline,planar-e(s)dolomite(RD2),and medium-to coarse-crystalline,nonplanar-a dolomite(RD3)),medium-to coarsecrystalline,nonplanar-a saddle dolomite cement(CD)and early and later-stage calcite cement.The occurrence of RD1 along low-amplitude stylolites points to link with pressure dissolution by which minor Mg ions were likely released for replacive dolomitization during early-to intermediate-burial seawater dolomitization.The increasing crystal sizes of RD2 and RD3 with irregular overgrowth rims suggests intense recrystallization and replacement upon the RD1 or remaining precursor limestones by dolomitizing fluids during late intermediate burial dolomitization.The overlap ofδ^(18)O,δ^(13)C and ^(87)Sr/^(86)Sr values of RD1-RD3 and CD dolomite with coeval seawater values,suggests that the principal dolomitizing fluids that precipitated these dolomites was connate(Cambrian)seawater preserved in the host limestones/dolomites.Their high ^(87)Sr/^(86)Sr ratios suggest influx of radiogenic strontium into the Cambrian seawater.Two regimes of fluid flow are recognized in the study area:firstly,influx of magnesium-rich higher-temperature basinal brines along deep-seated faults/fractures,resulting in cementation by CD dolomite.Secondly,the incursion of meteoric waters,mixing with ascending highertemperature basinal brines,and an increase in Ca^(2+)/Mg^(2+)ratio in the fluids probably results in the precipitation of calcite cement in vugs and fractures.

The Formation Mechanism and Geological Significance of Fluorite in Ordovician, Central Uplift of Tarim Basin

Based on analysisof karst fracture-vuggy filling mineralogy and geochemical fluorite in hercynian, this paper make further research about formation and significance of fluorite in central uplift of Tarim Basin. It is point out that the development of hercynian fracture-vuggy and filling succession of fracture-cave mineral was under the background of the mingling of low-temperature magma hydrotherm and the brine of upper strata. There are overlap or associate relations between generate of fluorite and buried dissolution or oil-gas migration. It was volume decreased 26.4% after calcite metasomatic by fluorite, this reaction made fluorite engender plentiful intergranular space. It’s created appreciable reservoir space. At same time, hydrotherm carried by fluorite generating could erode adjacent rock though fracture or fissure, forming irregular fracture-cave system, and also accompanied with hydrocarbon migration. The time of hydrocarbon migration and accumulation happened in late hercynian-indosinian is inosculates with the sedimentation time such as fluorite and several hydrothermal mineral.

塔里木盆地塔中隆起中北部地区断裂构造特征及演化

为系统揭示塔里木盆地塔中隆起中北部地区断裂构造特征及其成因演化,通过对该区大连片三维地震工区精细构造解析和相干体等分析,并结合区域动力背景,系统论述了该区的断裂构造类型、几何学特征、差异活动机制及其构造演化过程。研究结果表明,塔中隆起中北部发育了4类7期断裂构造,其中逆冲断裂和走滑断裂尤其发育。平面上北西向弧形逆冲断裂与北东向、北西向及南北向走滑断裂相互交切与耦合;垂向上断裂分层差异活动特征明显,下奥陶统及其以下地层,断裂发育数量多且以线形为主,中奥陶统-中下泥盆统多呈雁列式,上泥盆统-二叠系仅在塔中Ⅱ号断裂带、顺北5号断裂带西南端等地区发育少量断裂。研究区断裂活动受多期、多方向不同性质应力场所控制,经历了极其复杂的演化历史:加里东早期以塔中Ⅱ号断裂带等少量北倾正断层活动为主;加里东中期Ⅰ幕断裂活动强烈,表现为逆冲断裂与走滑断裂协同演化和相互耦合特征,走滑断裂对逆冲断裂的切割或限制作用明显;加里东中期Ⅲ幕断裂活动基本继承了加里东中期Ⅰ幕的构造格局,但在工区北部的顺北4号、5号等断裂带张扭性断裂活动特征显著;加里东晚期-海西早期,部分断裂发生继承性活动且张扭断裂发育范围进一步向南扩大;印支-燕山期,仅有少数断裂发生继承性活动;喜山期该区构造比较稳定,早期形成的复杂断裂构造进入深埋阶段。

塔北塔中地区中、下寒武统岩性组合与变形特征及其对油气输导影响

塔里木盆地塔北塔中地区寒武系勘探生产实践揭示,油气分布严格受控于断裂,不同断裂段之间油气差异性显著,断裂带具有重要的垂向输导作用。因此,加强塔北塔中地区中、下寒武统的岩性组合与变形特征研究,对判定整体地层变形情况和厘清影响油气输导效率的因素具有重要意义。本研究以塔里木盆地塔北塔中地区中、下寒武统为研究对象,基于岩心、钻/测井、3D地震及生产动态数据等资料,首先开展岩石类型划分和岩性组合分析,然后通过井震标定及区域地震剖面追踪,明确岩性组合的地震响应特征,最后指明断裂作用下目的层变形特征,揭示岩性组合与构造变形特征对油气输导效率的影响。研究结果表明:(1)研究区共发育白云岩类、含膏岩类和含泥白云岩类等3种岩石类型,根据叠置样式分为上下分段型、对称型和互层型三种岩性组合;(2)不同岩性组合的地震反射特征存在显著差异性,上下分段型岩性组合对应于上部弱振幅、下部强振幅,呈现席状平行亚平行反射特征,对称型岩性组合表现为具有中强振幅且连续性较好的地震反射之间夹持着弱振幅、连续性中等的席状平行反射的特征。互层型岩性组合表现为强振幅、高频率和连续性好的地震反射特征;(3)在不同的应力分段作用下,目的层变形特征分为膏岩层厚度减小、厚度增大及厚度稳定共3种类型。研究揭示出岩性组合与构造变形联合控制着油气输导,顺北区块岩性组合的叠置样式呈现明显的区域差异性,西部以对称型叠置为主,东部以上下分段型对称型为主。对称型岩性组合的变形程度较高有利于油气输导,上下分段型岩性组合在拉分段更为有利。

Thermochemical Sulfate Reduction in the Tazhong District,Tarim Basin,Northeast China:Evidence from Formation Water and Natural Gas Geochemistry

Systematic analyses of the formation water and natural gas geochemistry in the Central Uplift of the Tarim Basin （CUTB） show that gas invasion at the late stage is accompanied by an increase of the contents of HeS and CO2 in natural gas, by the forming of the high total dissolved solids formation water, by an increase of the content of HCO3^-, relative to Cl^-, by an increase of the 2nd family ions （Ca^2＋, Mg^2＋, Sr^2＋ and Ba^2＋） and by a decrease of the content of SO4^2-, relative to Cl^-. The above phenomena can be explained only by way of thermochemicai sulfate reduction （TSR）. TSR often occurs in the transition zone of oil and water and is often described in the following reaction formula： ∑CH＋CaSO4＋H-2O→H2S＋CO2＋CaCO3. （1） Dissolved SO4^2- in the formation water is consumed in the above reaction, when HeS and CO2 are generated, resulting in a decrease of SO4^2- in the formation water and an increase of both HeS and CO2 in the natural gas. If formation water exists, the generated CO2 will go on reacting with the carbonate to form bicarbonate, which can be dissolved in the formation water, thus resulting in the enrichment of Ca^2＋ and HCO3^-. The above reaction can be described by the following equation： CO2＋HeO＋CaCO3→Ca^2＋＋2HCO3^-. The stratigraphic temperatures of the Cambrian and lower Ordovician in CUTB exceeded 120℃, which is the minimum for TSR to occur. At the same time, dolomitization, which might be a direct result of TSR, has been found in both the Cambrian and the lower Ordovician. The above evidence indicates that TSR is in an active reaction, providing a novel way to reevaluate the exploration potentials of natural gas in this district.

Lost circulation material for abnormally high temperature and pressure fractured-vuggy carbonate reservoirs in Tazhong block, Tarim Basin, NW China

To effectively solve the problem of lost circulation and well kick frequently occurring during the drilling of abnormally high temperature and pressure fractured-vuggy reservoirs in the Tazhong block, a rigid particle material, GZD, with high temperature tolerance, high rigidity(> 8 MPa) and low abrasiveness has been selected based on geological characteristics of the theft zones in the reservoirs. Through static pressure sealing experiments, its dosage when used alone and when used in combination with lignin fiber, elastic material SQD-98 and calcium carbonate were optimized, and the formula of a new type(SXM-I) of compound lost circulation material with high temperature tolerance and high strength was formed. Its performance was evaluated by compatibility test, static sealing experiment and sand bed plugging experiment. The test results show that it has good compatibility with drilling fluid used commonly and is able to plug fractures and vugs, the sealed fractures are able to withstand the static pressure of more than 9 MPa and the cumulative leakage is 13.4 mL. The mud filtrate invasion depth is only 2.5 cm in 30 min when the sand bed is made of particles with sizes between 10 mesh and 20 mesh. Overall, with good sealing property and high temperature and high pressure tolerance, the lost circulation material provides strong technical support for the safety drilling in the block.

塔里木盆地鹰山组白云岩成因与Mg同位素证据

中—下奥陶统鹰山组作为塔里木盆地中央隆起区潜在的重要勘探接替层系,其白云岩成因认识仍不清楚,因此制约了对该区域的进一步勘探。鹰山组由下至上依次发育白云岩、白云质灰岩和灰岩,表明发生了灰岩向白云岩的交代转化过程。交代白云岩的形成需要足够的含镁流体和长期的镁泵输送机制,而新兴的Mg同位素技术在示踪白云石化流体来源和迁移路径方面已经取得良好效果。因此,本研究通过系统采集鹰山组白云岩、白云质灰岩和灰岩,开展岩石学、微量元素、碳氧同位素和Mg同位素测试。实验结果显示,鹰山组发育6类岩石,分别是泥晶-微晶白云岩(D1)、粉晶-细晶白云岩(D2)、颗粒白云岩(D3)、中晶-粗晶白云岩(D4)、白云质灰岩(DL)和灰岩(L)。鹰山组碳酸盐岩的δ^(13)C_(V-PDB)值为-2.10‰~-0.37‰(平均值-1.37‰),δ^(18)O_(V-PDB)值为-7.51‰~-3.54‰(平均值-5.41‰),δ^(26)Mg值为-4.03‰~-1.28‰(平均值-2.55‰)。δ^(26)Mg、Na含量、Sr/Ba、Mn/Fe、δ^(13)C_(V-PDB)、δ^(18)O_(V-PDB)、古盐度(Z)和古温度(T)在垂向上显示出一定的联动性和系统性。通过综合分析与讨论得出以下几点认识:(1)鹰山组δ^(26)Mg值垂向变化趋势与沉积旋回具有密切联系,沉积旋回的顶部为富镁流体源区,旋回界面为流体迁移通道;(2)识别出4种Mg同位素变化趋势与白云石化流体迁移规律,即云灰互层结构(L→DL→D)、准同生白云岩结构(D1→D2)、渗透回流白云岩结构(D1→D2→D3→D4→L)和埋藏白云岩结构(D4→DL/D);(3)鹰山组白云岩形成主要与海平面周期性波动有关,海平面下降时,蒸发作用促使局限水体中富集Mg^(2+),并且富镁流体会沿着下伏高孔高渗的颗粒灰岩垂向迁移至下伏地层,有利于白云石化作用的持续进行,当富镁流体遇到孔隙度不发育的泥晶灰岩时,富镁流体无法进入矿物晶格中,白云石化作用停止。海平面上升时,局限水体转变为开阔水体,海水与富镁流体源区相互混合,降低了流体的白云石化驱动力,致使白云石化作用逐渐减弱,从而发育灰质白云岩和灰岩;(4)除受海平面控制外,深埋藏阶段经历的多期交代、重结晶或热液作用也有利于鹰山组白云岩的形成;(5)白云石化作用对鹰山组沉积储层具有建设性意义,早期白云石化作用有利于孔隙的继承和保存,而晚埋藏和热液白云石化对储层起破坏作用。

塔里木大火成岩省碱性岩浆活动与稀有金属成矿作用

地幔柱活动导致大火成岩省的形成,并伴随大规模岩浆作用和成矿事件。碱性岩型稀有金属矿床是地幔柱成矿作用中非常重要的一类,但目前对该类矿床形成过程中稀有金属元素超常富集机制仍缺少系统性研究。本文搜集了塔里木大火成岩省两大构造域(塔里木克拉通及边缘地区和中亚造山带)碱性岩浆岩的年代学和岩石地球化学数据,分析其岩浆活动和成矿作用的基本特点,探讨地幔柱与不同类型大陆岩石圈相互作用导致稀有金属元素富集的差异性。塔里木克拉通及边缘地区碱性岩浆岩主要为碱性正长岩‒花岗岩和碳酸岩,形成于291~268 Ma,峰期年龄为~278 Ma,主要属于塔里木大火成岩省最晚阶段的岩浆活动;其中碱性正长岩‒花岗岩富碱、Th、REE、Nb、Zr,高Ga/Al、Nb/Ta值,多数显示典型A1型花岗岩的地球化学特征。中亚造山带碱性岩浆岩为碱性正长岩‒花岗岩,形成于325~255 Ma,大部分与塔里木大火成岩省岩浆活动时代一致,其碱、Th、REE、Nb、Zr含量和Ga/Al、Nb/Ta值明显低于塔里木克拉通及边缘地区的碱性正长岩‒花岗岩,并且多数显示典型A2型花岗岩的地球化学特征。塔里木克拉通及边缘地区的碱性正长岩‒花岗岩和碳酸岩赋存Nb-Zr-REE矿床,而中亚造山带的碱性正长岩‒花岗岩则赋存Li-Be-Ta-Nb-W-Sn-Mo矿床。地幔柱和再循环洋壳物质加入地幔源区导致塔里木克拉通及边缘地区的碱性岩浆岩富集Nb、Zr、REE;中亚造山带碱性岩浆岩的源区因近期俯冲交代影响的岩石圈地幔和新生地壳物质的参与而显著富集Li、Be、W、Sn、Mo等流体活动元素。塔里木克拉通及边缘地区碱性正长岩‒花岗岩贫硅、钠质、过碱性的特征有利于熔体中Nb、Zr、REE的富集;而中亚造山带碱性正长岩‒花岗岩富硅、钾质、过铝质的特征有利于Ta、Li、W、Sn的富集。塔里木克拉通和中亚造山带具有不同的地幔柱‒岩石圈相互作用,其碱性岩浆岩的岩浆源区不同,并经历了不同的岩浆演化过程,导致塔里木大火成岩省两大构造域具有不同的稀有金属成矿作用。

塔中地区奥陶系埋藏热液溶蚀流体活动及其对深部储层的改造作用

基于矿物流体包裹体均一化温度、热液矿物分布及其地球化学特征等,识别出了塔中地区重点研究井段埋藏热液溶蚀流体化学性质,探讨其在纵横向的分布及流动特征。研究表明,(1)埋藏热液溶蚀流体在塔中地区较为活跃,并对碳酸盐岩储层有着良好的改造效应,油气勘探前景广阔;(2)北东-南西向走滑断裂发育地带有利于埋藏热液溶蚀流体的注入,研究区TZ45以及TZ82-TZ16井区均是埋藏热液溶蚀流体异常活跃地带。同时,研究还认为,早期表生岩溶作用产生的溶洞体系将被后期埋藏压实作用部分破坏,而其残余空间往往是埋藏热液溶蚀流体进入储层的优势通道,继而发生溶蚀改造扩大溶洞空间。因此,在塔里木深部碳酸盐岩储层的勘探过程中,应充分重视挤压背景下张性断裂的发育及其热流体疏导效应,如走滑断裂强烈活动地带;同时应着重注意多期不同性质流体的叠加改造效应,这些区域可作为优选勘探目标。

塔里木盆地塔中低凸起古构造演化与变形特征

通过区域地质和构造地震精细研究,提出了塔里木南缘早古生代板块构造控制塔南—塔中从伸展到挤压盆地演化:寒武纪—早奥陶世板缘拉张控制了塔中北斜坡断陷构造;中奥陶世北昆仑洋盆关闭后塔中前缘隆起;晚奥陶世—晚泥盆世塔中前陆冲断与走滑构造变形。晚奥陶世塔南前陆冲断构造由东南向西北方向传播,形成塘北—塔中南—塔中5号断裂带等弧形断裂体系和塔中低凸起中西段与Ⅰ号断裂带小角度斜交的走滑断裂体系。冲断构造位移的传播受控于两个滑脱层:其一是沿寒武系内部膏盐岩的滑脱,形成弧形冲断构造,终止于塔中南缘断裂带;另一个是沿中地壳韧性变形带的滑脱,形成塔中1号断裂带东端的弧形构造带。塔中1号断裂带东段的构造变形方式主要为向北传播水平位移的断层传播褶皱和向南反向冲断的楔形构造。塔中低凸起的中西段右行走滑构造导致了向东收敛的扫帚状走滑断裂体系的形成,剖面发育花状构造。塔中低凸起的古构造演化与变形特征、构造变形样式、构造变形成因和断裂体系,是克拉通盆地内部叠合盆地深层的主要构造地质特征。

塔里木盆地塔中地区早二叠世岩浆岩及油气成藏关系

应用地震和测井、岩心描述、地质录井、岩心与岩屑微观测试分析等信息,研究了塔里木盆地塔中地区早二叠世岩浆岩岩石类型、单井相分析、产状、期次、发育与分布等特征和规律;论述了本期岩浆活动对烃源岩、油气储集层、油气运移、圈闭和成藏等的影响,认为早二叠世岩浆活动有利于增加和改善油气运移的通道,能使相邻烃源岩在短期内经历异常高温和催化改造而成熟并增加生烃量,改善油气储层质量和形成岩浆岩遮挡的半背斜圈闭与油气藏等。

塔里木盆地中央地区的断裂系统：几何学、运动学和动力学背景

塔中低凸起位于塔里木盆地中央隆起的中段,发育4组不同方向的断裂,以北西向的塔中Ⅰ号断裂带为主干断裂,其南的近北西向断裂和近东西向断裂与之组成"入"字形构造,向西撒开;剖面上则因塔中Ⅰ号断裂带活动强度自东向西减弱而出现不同的断裂组合样式。基于地层记录和区域演化分析了该区断裂系统的活动时期和活动方式,两次重大的挤压—剪切事件分别发生在奥陶纪末和晚志留-中泥盆世,因而塔里木盆地中央隆起可能是晋宁期山体在后期重新活动形成的加里东期陆内造山带。北西向断裂是二叠纪岩浆侵入或玄武岩喷溢的通道,之后全区断裂基本处于平静状态。结合塔里木周边造山带的演化,认为古生代—三叠纪时塔中地区的盆地发育主要受西昆仑造山带演化制约,同时叠加有古阿尔金剪切造山带的影响,这是为塔中地区特殊的构造位置决定的。侏罗纪—新近纪,该地的盆地主要与阿尔金断裂的剪切造山作用耦合发育,仅早白垩世时与塔北—库车地区同属南天山的"盆""山"系统。断裂的运动学特征取决于其动力学背景,实际上受制于邻侧的造山带发育。断裂系统的发育是塔中地区能形成复式油气田的关键条件之一,本文的研究对推进复式油气成藏的机理研究、明确近期的重点勘探靶区等有积极意义。

塔里木盆地中部泥盆系东河砂岩成岩作用与储集性能控制因素

根据对岩石的铸体薄片和阴极发光薄片、地层厚度、古地温梯度以及镜质体反射率等资料分析研究认为 :塔中地区东河砂岩经历了压实作用、粘土胶结、石英次生加大、碳酸盐胶结、溶蚀作用、自生高岭石沉淀等多种成岩作用 ,目前已经达到了晚期成岩阶段。这些成岩作用在塔中 4井以东和以西的地区存在较明显的差异 ,西部进入早成岩阶段B期和晚成岩阶段A期的时间较早 ,成岩演化程度较高 ,且具有下部溶蚀上部胶结的分带性 ;而东部则反之。优质储层主要分布于颗粒成分较纯、泥质含量较低、构造位置上长期处于高部位、被油气充注但未被晚期碳酸盐胶结的地区 ,即二叠纪以来长期处于构造高部位的前滨 临滨相带地区。

塔中隆起上奥陶统凯迪阶良里塔格组生物群及其古生态特征

塔中隆起区的良里塔格组含菌藻类微生物岩、植物类的钙藻、原生动物中的有孔虫、后生动物中的海绵、珊瑚、苔藓虫、介形类、三叶虫、腹足类、腕足动物、棘皮动物等化石门类。根据其生物成分的埋葬学特征,分为原地或近源成分占优势的群落和远源异地成分占优势的组合,群落和组合的类型展布受水深、水动力、坡折带地貌等因素控制。

塔中地区中-晚奥陶世碳酸盐陆棚边缘大气成岩透镜体的发育特征

塔里木盆地中部地区中 晚奥陶世碳酸盐陆棚边缘相带中发育 4期明显的准同生期大气淡水溶蚀作用和 4个旋回的大气成岩透镜体 ,分别见于不同旋回的礁滩沉积序列顶部 ,厚度一般为 1 5～ 5 0m ,在横穿陆棚边缘相带方向上最大延伸范围可达 6～ 8km宽。在大气成岩透镜体中 上部发育的厚度几米至 2 0余米的透镜状孔隙层 ,是目前塔中Ⅰ号断裂构造带中 上奥陶统灰岩孔隙型、裂缝—孔隙型储层和油气藏的主要发育层位。它们在纵向剖面上呈2～ 4层发育 ,区域上分布范围广 。

塔中地区志留系烃类侵位对成岩作用的影响

塔中地区志留系具有较广的沥青分布 ,为研究烃类侵位对矿物成岩作用的影响提供了良好的实例。通过岩矿观察 ,并综合油田水化学、氢氧锶同位素和流体包裹体均一化温度等资料 ,提出该区志留系烃类侵位后因淡水注入而使烃类被氧化 ,所产生的有机酸促进了钾长石、石英等矿物的溶解 ,导致了次生孔隙的发育 ;并为石英次生加大提供所必需的Si的来源。Si的质量转移可能是因浓度梯度而引起的扩散作用进行的。烃类侵位还使成岩介质还原性增强 ,使得胶结物富含还原的 2价铁 ;

塔里木盆地塔中地区奥陶系碳酸盐岩埋藏溶蚀特征

塔里木盆地塔中地区奥陶系碳酸盐岩发育多种形式的岩溶作用,其中深部及热液埋藏溶蚀是形成有利储层的重要机制之一。钻井岩心、录井等分析化验资料以及宏观地质背景分析表明,塔中地区奥陶系碳酸盐岩主要发育4期埋藏溶蚀,Ⅰ,Ⅱ期溶蚀孔洞基本已被充填,Ⅲ期残留孔隙和Ⅳ期溶蚀孔洞为现今储层的有效储集空间。埋藏溶蚀作用发生的流体介质主要为有机质演化过程中形成的有机酸和二氧化碳,硫化氢可能对晚期储层形成有较大贡献。通过分析前人研究成果,认为岩浆期后热液溶蚀对本区奥陶系储层的改造作用有效,具体的影响和评价还有待进一步深入研究。

塔里木盆地塔中地区下奥陶统白云岩成因

塔里木盆地塔中地区下奥陶统白云岩广泛发育,岩石类型复杂多样,主要包括结晶白云岩、残余颗粒白云岩、残余灰质白云岩、藻云岩、亮边雾心白云岩、环带白云岩及少量膏云岩等结构类型。白云岩交代现象明显,δ18O普遍为中—高负值(-3.2‰～-8.7‰);δ13C值基本为低中负值(-3‰～-0.77‰),Z值大多集中在118～123之间,成岩温度大部分集中于36～51℃范围,属于低温白云岩。白云岩具有低Mg/Ca比值,而Fe/Mn比值变化较大;白云石成分显示高铁白云石和低铁白云石之分;Sr同位素组成(0.708 8～0.709 7)普遍与海水锶同位素组成相当,但也存在个别具有较高的87Sr/86Sr比值(0.710 1～0.710 9)。结合塔中地区奥陶系古地理演变特征,白云岩化类型可划分为准同生期白云石化作用和埋藏白云石化作用。准同生期白云石化作用发生于海底(主要是潮间)成岩环境,主要是在潮坪环境或滩相环境中,其白云岩形成温度较低,具低87Sr/86Sr比值,白云石单矿物具低Fe含量;而埋藏白云岩化存在两种模式,一种为早期浅埋藏过程中的卤水回流模式,其白云岩形成温度亦较低,具高87Sr/86Sr比值,白云石单矿物具高Fe含量;另一类发生于还原性较强晚期埋藏较深的成岩环境,在埋藏阶段白云岩化程度得到进一步加强和调整,其白云岩形成温度较高,白云石捕获的包裹体均一温度较高,盐度较低。