Restoration of reservoir diagenesis and hydrocarbon accumulation process by calcite in-situ U-Pb dating and fluid inclusion analysis: A case study on Cretaceous Qingshuihe Formation in Gaoquan Structure, southern Junggar Basin, NW China

The complexity of diagenesis and hydrocarbon accumulation in the deep reservoirs in southern Junggar Basin restricts hydrocarbon exploration in the lower reservoir assemblage. The lithofacies and diagenesis of reservoirs in the Cretaceous Qingshuihe Formation in the Gaoquan structure of the Sikeshu Sag, southern Junggar Basin were analyzed. On this basis, the thermal history was calibrated using calcite in-situ U-Pb dating and fluid inclusion analysis to depict the hydrocarbon accumulation process in the Gaoquan structure. The results show that the Qingshuihe reservoir experienced two phases of calcite cementation and three phases of hydrocarbon charging. The calcite cements are dated to be (122.1±6.4) Ma, (14.4±1.0) Ma - (14.2±0.3) Ma. The hydrocarbon charging events occurred at around 14.2-30.0 Ma (low-mature oil), 14.2 Ma (mature oil), and 2 Ma (high-mature gas). The latter two phases of hydrocarbon charging contributed dominantly to the formation of reservoir. Due to the S-N compressive thrust activity during the late Himalayan period since 2 Ma, the traps in the Gaoquan structure were reshaped, especially the effective traps which developed in the main reservoir-forming period were decreased significantly in scale, resulting in weak hydrocarbon shows in the middle-lower part of the structure. This indicates that the effective traps in key reservoir-forming period controlled hydrocarbon enrichment and distribution in the lower reservoir assemblage. Calcite U-Pb dating combined with fluid inclusion analysis can help effectively describe the complex diagenesis and hydrocarbon accumulation process in the central-west part of the basin.

Multi-Stage Fluid Charging and Critical Period of Hydrocarbon Accumulation of the Sinian Dengying Formation in Central Sichuan Basin

Objective The natural gas exploration of the Sinian reservoirs in the central Sichuan Basin has made a significant breakthrough in recent years, and has thus attracted much attention among geologists. The Sichuan Basin is known to have complicated geological settings, which has experienced multiple stages of tectonic evolution, fluid charging and hydrocarbon accumulation. This research aims to determine the geochemical characteristics of each stage of fluids, the features and time interval of fluid activity in different geologic periods, and further to restore the critical period and geological age of the hydrocarbon accumulation.

Characteristics of Fluid Inclusions and Determination of Hydrocarbon Accumulation Period of Caofeidian 18-1/2Buried Hill Reservoirs in Bozhong Depression,Bohai Bay Basin

The study area Caofeidian 18-1/2 structure is located in the Shadongnan structural belt at the southeast subduction end of the Shaleitian salient in the western Bohai Sea. The characteristics of reservoirs and fluid inclusions from 13 core samples near the buried hills in the study area are studied,and regional geology and conditions for reservoir formation are analyzed to reveal the characteristics and the processes of reservoir formation. Phase I oil and gas inclusions are mainly developed,and the abundance of oil and gas inclusions in this period is high( GOI is about 15%). The homogenization temperature of the hydrocarbon-containing brine inclusions accompanying them is mainly 90-120 ℃ . The simulation results of burial history and thermal history show that the main charging period of oil and gas is the present Himalayan tectonic movement period since 8 Ma,and mainly through unconformities,faults,and drainage systems,they are migrated and accumulated into fault anticline traps of Dongying Formation mudstone( E_d).

杭锦旗地区二叠系储层油气成藏期次及流体势特征

杭锦旗地区是鄂尔多斯盆地北部重要的含油气区,油气成藏期次及流体势研究有利于探究油气充注的世代以及流体势的分布特征,并进一步判定成藏期油气的运移方向。本文以什股壕区块和十里加汗区块5口井的二叠系下石盒子组盒一段储层砂岩为研究对象,基于流体包裹体分析厘定油气成藏期次,并结合流体势理论计算研究区关键成藏期的流体势并揭示油气的运移方向。研究结果显示:什股壕区块盒一段储层油气的成藏时间为132~102 Ma;十里加汗区块盒一段储层油气的成藏时间为132~101 Ma。杭锦旗北部的什股壕盒一段储层油气的流体势为18 128~22 872 J/kg;杭锦旗南部的十里加汗区块盒一段储层油气的流体势为22 975~27 153 J/kg。本文认为研究区二叠系盒一段储层油气成藏时间在早白垩世,十里加汗区块整体的流体势要高于什股壕区块,油气具备由南部向北部运移的趋势。

鄂尔多斯盆地东南部大宁—吉县区块上古生界盒8段流体包裹体特征及成藏意义

鄂尔多斯盆地东南部大宁—吉县区块相较于盆地内部,其构造活动强烈,地层抬升幅度大,有机质成熟度高,导致研究区与盆地内部天然气成藏存在差异。利用单偏光显微镜、激光拉曼光谱仪及冷热台等实验仪器,对研究区盒8段13块流体包裹体样品开展了岩相学显微观察、测温测盐和古压力恢复,并结合地层埋藏史—热史厘定了大宁—吉县区块盒8段天然气成藏期次及成藏过程。结果表明,烃类包裹体类型有CH_(4)+CO_(2)包裹体、CH_(4)包裹体及含碳质沥青包裹体。前两类烃类包裹体对应的共生盐水包裹体均一温度介于90~160℃,具有双峰分布特征,第3类包裹体形成时期温度较高,成岩作用阶段已达到晚期,几乎不发育与其伴生的盐水包裹体,通过计算得出含碳质沥青反射率介于2.79%~3.32%,处于高成熟阶段,为原油裂解形成。综合分析表明研究区天然气存在三期充注成藏过程:第Ⅰ期共生盐水包裹体均一温度分布区间为90~120℃,天然气充注期距今175~155 Ma,古压力系数达到1.43,对应于早侏罗世晚期-晚侏罗世早期;第Ⅱ期共生盐水包裹体均一温度区间为130~160℃,天然气充注期距今145~110 Ma,为主成藏期,充注完成时古压力系数达1.57,对应于早白垩世;第Ш期为裂解期,烃类包裹体为含碳质沥青包裹体,形成时的地层温度高于200℃,其成因为原油在早白垩世末裂解形成,古压力系数增加到2.0,距今110~100 Ma。

西湖凹陷玉泉构造油气成藏时空匹配关系研究

以地质录井资料为基础,结合流体包裹体、自生伊利石同位素等地球化学资料,运用平衡剖面、盆地模拟技术,研究玉泉构造断裂演化史、圈闭发育史、埋藏史、成岩史、生烃史、油气成藏史及其时空匹配关系。研究表明:玉泉构造经历了前挤压反转期、挤压反转早期和挤压反转晚期3个阶段,其中挤压反转早期和晚期为NWW向调节断层和圈闭发育、定型的关键阶段;花港组下段H6—H7自13.0 Ma以来油气持续充注成藏至今,储层物性较差,花港组上段为13.0~11.4 Ma和4.2 Ma至今两期油气充注成藏,且第二期为主要油气成藏期,储层物性较好,龙井组为3.4 Ma至今一期充注成藏,储层物性好。总结出玉泉构造寻找有利勘探目标的关键条件为:以花港组上段为勘探主要目的层,靠近早期发育的NNE油源断层,避开晚期NWW向调节断层,指出玉泉3井区北部、玉泉1井区北部花港组上段以及玉泉3井区NWW向断层上盘龙井组、玉泉1井区龙井组上段为有利勘探区。

陕北志丹地区延长组流体包裹体特征及成藏期次

鄂尔多斯盆地陕北地区油气资源分布广泛,是油气勘探的重点地区。对陕北志丹地区延长组长2、长6段储层成藏时间、成藏期次进行系统科学的研究,既利于油田的精细化勘探,又能完善对鄂尔多斯盆地三叠系油气成藏的认识。采取显微镜镜下观察及荧光观察包裹体特征,通过包裹体均一温度实验、冰点实验等对储层流体包裹体成藏期次进行划分。结果表明:陕北志丹地区延长组长2、长6段储层主要存在3类流体包裹体,分别为盐水包裹体、含液态烃包裹体及液态烃类包裹体;液态烃类包裹体在荧光照射下,多呈黄绿色及橙黄色,表明长2、长6段储层有机质成熟度达到中等水平;长2、长6段储层流体包裹体主要分布在石英加大边及石英愈合微裂隙中;均一温度分布连续,表明长2、长6段储层为一期充注,其均一温度主要分布于85~130℃之间,峰值介于90~110℃之间;盐水包裹体具有高温、中等盐度和中高密度特征;来源于有机质热演化时期形成的油气流体,成藏时间为111~100 Ma之间,成藏时间为早白垩世晚期。

基于原位方解石U-Pb定年与包裹体分析技术恢复储集层成岩-成藏过程——以准噶尔盆地南缘高泉地区白垩系清水河组为例

准噶尔盆地南缘深层成岩-成藏复杂性制约了其下组合油气勘探的进程。以准噶尔盆地南缘四棵树凹陷高泉构造油气藏为例,在白垩系清水河组储集层岩相及成岩作用分析的基础上,通过原位方解石U-Pb定年和流体包裹体分析技术,标定盆地热演化史,刻画高泉构造下组合油气成藏过程。研究表明,储集层中发育两期方解石胶结和3期油气充注,方解石形成年龄分别为(122.1±6.4),(14.2±0.3)~(14.4±1.0)Ma,油气充注事件为距今14.2~30.0 Ma低熟油充注,距今14.2 Ma以来成熟原油充注和距今2 Ma以来高熟天然气充注,油气藏以成熟油和高熟天然气充注贡献为主。距今2 Ma以来受喜马拉雅晚期南北向挤压冲断构造活动的影响,高泉构造圈闭发生了调整,主要成藏期有效圈闭规模明显减小,导致构造中低部位油气显示相对较弱,说明关键成藏期的圈闭有效性控制该区下组合的油气富集与分布。储集层方解石U-Pb定年技术和流体包裹体分析技术耦合,为精细刻画中国中西部复杂构造带的复杂成岩-成藏过程提供了有效方法。

GPS time-series and its response to M_S=8.1 Kunlunshan earthquake

In this paper, observation data in 25 GPS reference stations of China have been analyzed by calculating GPS position coordinate time-series with GIPSY. Result shows there is an obvious trend variation in such time-series. The trend variations of time series along the longitude and latitude coordinate reflect the motion of each position in the global-plate, in which the trend variation in the vertical direction reveals some large-scale construction information or reflects the local movement around the positions. The analysis also shows that such time-series have a variation cycle of nearly 1.02 a, but the reason still remains to be further studied. At the end of this paper, response of the time-series to MS=8.1 Kunlunshan earthquake was analyzed, and the seismogenic process of MS=8.1 Kunlunshan earthquake, according to the time proceeding and the feature of anomaly, was divided into 3 phases-changes in blocks with forces, strain accumulation, quick accumulation and slow release of energy. At the initial stage of seismogenic process of MS=8.1 earthquake and at the imminent earthquake, coseismic process as well as during the post earthquake recovery, anomaly in vertical direction is always in a majority. The anomalous movement in vertical direction at the initial stage resulted in a blocking between faults, while at the middle stage of seismogenic process, the differential movement between blocks are in a majority, which is the major reason causing energy accumulating at the blocking stage of faults.

油气成藏期活动断裂对砂体输导油气阻止作用部位的预测方法及其应用

为了研究含油气盆地斜坡区断裂附近油气分布规律,在油气成藏期活动断裂对砂体输导油气阻止作用机理及部位研究的基础上,通过确定油气成藏期断盖配置封闭部位、断裂填充物侧向封闭部位和砂体输导油气优势路径,三者叠合建立了一套油气成藏期断裂对砂体输导油气阻止作用部位的预测方法。实例应用结果表明:油气成藏期活动的敖古拉断裂对萨尔图油层砂体输导油气阻止作用的部位共有6处,自西南至东北均匀分布,是东侧古龙凹陷青一段源岩生成油气在敖古拉断裂附近萨尔图油层聚集成藏的有利部位,与现今敖古拉断裂附近萨尔图油层的油气显示情况基本相同,证明此方法针对油气成藏期活动断裂对砂体输导油气阻止作用部位的预测是可行的。

北部湾盆地海中凹陷成藏关键要素及成藏模式

海中凹陷经几十年勘探虽点上有发现,但因成藏关键要素不明勘探陷入了停滞。该文为寻求其勘探规模突破方向,在成凹、成烃研究的基础上,深化成藏关键要素研究,建立了海中凹陷成藏模式,指出了规模突破的勘探有利区带。研究认为:海中凹陷油气成藏关键要素是近生烃中心、圈源时空匹配佳、油气输导条件好、优质储层发育。北部陡坡带是各成藏关键要素匹配最佳区,是海中最有利的勘探区带。研究成果为寻求海中凹陷规模油气突破指明了方向。

东营凹陷民丰地区沙四段下亚段油气成藏过程研究

近年来,随着深层油气勘探的推进,东营凹陷民丰地区油气勘探逐渐从浅层转向3000 m以下的深层。民丰地区沙四段下亚段地层埋深较大(多数>4000 m),主要由膏盐岩、含膏盐质泥岩、纯泥岩以及被季节性洪水搬运而来并沉积的大套砂砾岩组成。丰深斜11、丰深1和丰深斜101等井在沙四段下亚段砂砾岩储层产出了大量油气.

渤海海域前新生代关键构造期变形特征与潜山油气成藏意义

构造运动对渤海海域潜山形成演化及其油气成藏具有重要控制作用。利用地球物理和钻井资料,运用构造解析思想对渤海海域前新生代构造变形、运动形式及演化进行研究,确定关键构造变革期,在此基础上进一步分析其对潜山油气成藏意义。结果表明:(1)加里东运动主要以垂直隆升为主,海西运动期华北板块向西伯利亚板块碰撞拼接形成北高南低的不稳定克拉通,印支期SN向强烈挤压作用下板内低角度逆冲褶皱形成了近EW—NWW向向斜背斜相间的隆坳格局。燕山期陆内高角度逆冲和左旋走滑改造形成的NE—NNE向构造体系对印支期构造轴迹横跨叠加改造,形成了渤海海域东西分带、南北分段的构造格局。(2)依据单一构造期次变形特征和多期次构造叠加类型对渤海构造形迹塑造和潜山成山成储的控制作用,确定了印支和燕山两期构造运动为渤海潜山形成演化的关键构造变革期。(3)印支和燕山两期关键构造运动控制形成的先存基底断裂成为新生代生烃凹陷的主干控凹断裂,新生代断陷期对早期先存断裂的继承活动使古近系烃源岩与潜山对接,为渤海潜山成藏提供了良好的供烃窗条件;控制构造裂缝产生与后期流体溶蚀改造共同作用形成的规模性网状裂缝体系为潜山内幕提供了有利储集空间;控制形成了渤海地貌残丘型、内幕褶皱型、拉张断垒型和走滑掀斜型等丰富的潜山圈闭类型。

山地气象因子对烤烟生育期及青枯病的影响

为探明主要气象因子对山地烤烟生长发育进程的限制与影响,优化烤烟生育期,做好烟草青枯病的预测预报和合理防控,通过连续2年的烤烟主栽品种‘云烟87’、‘K326’、‘HN2146’的不同移栽期大田试验,探索生育期变化规律,研究日照及温度与烤烟生育期、青枯病的关系。结果表明:(1)烤烟团棵期和旺长期随移栽期延迟而显著减少,其原因是温度随移栽期推迟而显著升高,使生育进程加快;累积日照时数的减少有随生育时间缩短而变化的趋势。(2)温度、日照对烤烟的主要效应时期在团棵期与旺长期,主要影响在现蕾以前,其中温度是影响湘西烤烟生育期的关键因子。(3)平均日照时数与平均气温是影响生育期的主要因子,其中关键主要因子是平均气温。(4)青枯病重点防治期为烟叶移栽63 d之前且均温未达21.82℃之前,重点预防期为均温未达18.77℃之前且烟叶移栽42 d之前。温度对于指导青枯病的预测预报和防治具有重要意义。

东海盆地椒江凹陷火成岩发育特征及其对油气成藏的影响

东海陆架盆地椒江凹陷钻井已证实具有较大油气勘探前景,但多期构造运动下火成岩十分发育。为推动椒江凹陷油气勘探进程,从三维地震资料出发,结合研究区及周边已钻井的录井、测井以及同位素测年资料,通过对凹陷内火成岩岩相-地震相、岩浆活动期次开展研究,总结了岩浆活动对油气成藏的影响。椒江凹陷在5期岩浆活动下发育火山通道相、爆发相、溢流相、侵入相、火山沉积相5种类型火成岩,晚始新世至早中新世岩浆活动最强,发育大规模的岩浆沿层侵入和火山喷发。岩浆活动加速月桂峰组烃源岩成熟,形成一批强制背斜和岩墙断块圈闭,对椒江凹陷油气成藏有积极的作用,但主成藏期之后凹陷经历3期强烈岩浆活动,不利于油气藏的保存,给椒江凹陷油气勘探带来较大的地质风险。

气候变化对临沂冬小麦主要生育期的影响及适播期研究

为了研究气候变化对临沂市冬小麦生产的影响,确定合理播期和适宜的田间管理措施。利用2001—2021年临沂市气象资料和农业农村部门苗情调查数据,同时参考1962—2000年临沂市历史天气数据,采用线性趋势性预测对小麦生育期温度、积温以及主要生育期日期和持续时间进行变化规律分析。结果表明:临沂市冬小麦适播期和各生育期均对气候变化发生了不同的响应,适播期为10月8—19日,最佳播期为10月11—14日;分蘖期出现反复降温频率变高,促进了小麦冬前抗寒锻炼,利于形成壮苗;冬前积温增多和越冬期延迟,间接推迟了适播期,为上一季玉米晚收创造了条件;返青大幅提前和返青后积温显著增加,大幅缩短了小麦停止生长和越冬时间,增加了冬小麦实际生长时间,有利于冬小麦苗情转化;拔节期大幅提前,使小麦更容易遭受晚霜冻(冷)害和倒春寒;4月和5月温度下降为小麦抽穗、扬花、灌浆提供了更好的气候条件,特别是5月温度下降既减少了干热风的发生机率又利于小麦后期灌浆。确定了临沂市冬小麦适播期,为小麦全生育期田间管理和高产栽培提供了依据。

莺歌海盆地乐东10-1区黄流组储层流体包裹体特征及油气成藏期次分析

莺歌海盆地是中国南海北部海域重要的高温超压含油气盆地,乐东区黄流组砂岩储层致密,成岩作用较强,气藏具有低孔、低渗、低含气饱和度及异常高压的特点,流体包裹体记录了油气充注时的古流体信息,能够为油气成藏时间及成藏规律研究提供科学依据。通过对莺歌海盆地乐东10-1区黄流组砂岩样品进行镜下包裹体显微岩相学观察、包裹体类型与成分分析、包裹体均一温度与盐度测定等,研究黄流组砂岩储层的成岩特征及油气包裹体发育特征,结合其他地质条件综合分析油气成藏期次。结果表明:乐东10-1区黄流组砂岩成岩先后顺序主要为次生加大石英、方解石(白云石)胶结物;黄流组砂岩储层中包裹体比较发育,主要沿切穿石英颗粒及加大边微裂隙成带状分布、或碳酸岩胶结物中分布,以纯CH_(4)、CH_(4)和CO_(2)的混合成分为主;砂岩成岩期后主要有两期天然气充注过程,与天然气伴生的含烃盐水包裹体均一温度相差不大,LD10-1-A井黄流组均一温度主要分布在160~165℃和高于175℃,这与该区生烃时间较晚、晚期流体持续充注以及晚期底辟幕式活动有关系,结合构造演化史、埋藏史及生烃史等分析,乐东10-1区黄流组油气成藏时间普遍较晚,主要为±1.4 Ma和0.9 Ma至今。

Hydrocarbon accumulation conditions and key exploration and development technologies for PL 19-3 oilfield

The PL 19e3 Oilfield is the only super-large monolithic oilfield with oil and gas reserves up to 1×10^(9) t in the Bohai Bay Basin,and it has been successfully developed.Exploration and development practices have provided abundant data for analyzing formation conditions of this super-large oilfield.On the basis of the exploration and development history,fundamental reservoir features,and with available geological,geophysical and test data,the hydrocarbon accumulation conditions and key exploration&development technologies of the PL 19e3 Oilfield were discussed.The key conditions for forming the super-large Neogene oilfield include four aspects.Firstly,the oilfield is located at the high position of the uplift that contacts the brachy-axis of the multi-ridge slope in the biggest hydrocarbon-rich sag in the Bohai Bay Basin,thus it has sufficient hydrocarbon source and extremely superior hydrocarbon migration condition.Secondly,the large-scale torsional anticlines which formed in the Neogene under the control of the Tanlu strike-slipping movement provide sufficient storage spaces for oil and gas preservation.Thirdly,the“multiple sets of composite reservoir-caprock assemblages”developing in the special shallow-water delta further contributes greatly to the effective storage space for oil and gas preservation.Fourthly,due to the coupling of the uplift and strike slip in the neotectonic period,extensive faulting activities constantly released the pressure while the late period massive hydrocarbon expulsion of the Bozhong took place at the same time,which assures the constant and intense charging of oil and gas.The super-large PL 19e3 Oilfield was controlled by the coupling effects of all those special geologic factors.In view of this oilfield's features(e.g.violently reformation caused by strike slip,and the special sedimentary environment of shallow-water delta),some key practical technologies for exploration and development have been developed.Such technologies include:the special prestack depth migration processing for gas cloud zones,the prediction of thin interbed reservoirs based on high-precision inversion of geologic model,the reservoir description for the shallow-water braided river delta,the quantitative description for remaining oil in the commingled oil reservoirs with wide well spacing and long well interval,and the well pattern adjustment for formations during high water cut period in the complex fluvial-facies oilfields.

东营凹陷油气成藏期次及其分布规律研究

东营凹陷发育了咸水湖相沙河街组四段上部烃源岩和半咸水深湖相的沙河街组三段下部烃源岩两套有效烃源岩。根据原油的地球化学特征和储层流体包裹体等资料 ,将油气藏的形成分为两个大的阶段 :第一期为早第三纪东营期末 ,凹陷中心的沙河街组四段上部烃源岩已进入生油门限并开始排烃 ,后由于喜山运动使全区遭受抬升和剥蚀 ,油气生成过程中断 ,原油的生物标志化合物组成表明 ,此阶段的原油成熟度较低 ,油气生成数量有限 ;第二期为晚第三纪至第四纪沉积时期 ,伴随着凹陷的持续全面沉降和深埋 ,沙河街组三段下部和沙河街组四段上部烃源岩进一步成熟 ,生烃作用增强 ,原油的成熟度较高。两次成藏的原油分布具有明显的规律性 :凹陷边缘油藏的原油主要来自沙河街组四段上部烃源岩 ,原油成熟度较低 ,是早期充注成藏的 ;生油凹陷中心油藏的原油主要来自沙河街组三段下部烃源岩 ,原油成熟度较高 ,为第二期充注成藏的 ;而过渡带 (斜坡带 )油藏的油气来源及成藏期比较复杂 ,总体特征是混源聚集。

鄂尔多斯盆地富县—正宁地区延长组油气成藏期次

鄂尔多斯盆地富县—正宁地区延长组砂岩储层主要成岩作用有压实作用、胶结作用、溶蚀作用和裂隙作用,成岩自生矿物以绿泥石、自生石英和方解石为主。根据油气包裹体寄主成岩矿物的形成时间序列,识别出两期油气包裹体：第1期油气包裹体主要分布在石英、长石粒内愈合的、未切穿次生加大边的微裂隙及石英次生加大边内侧;第2期油气包裹体分布在晚期微裂隙和晚期亮晶方解石胶结物中。油气包裹体均一温度分布呈双峰型：早期峰值温度为110-120℃;晚期峰值温度为140-150℃。对油气包裹体均一温度、盐度、密度分析表明,研究区延长组油气为＂一期两幕＂成藏,且具有＂边致密,边成藏＂的特点。结合研究区延长组热演化史及储层伊利石K-Ar同位素定年结果研究表明,研究区主要油气成藏期为早白垩世（距今95-120Ma）。