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1.
Tao Hu Xiongqi Pang Sa Yu Xulong Wang Hong Pang Jigang Guo Fujie Jiang Weibing Shen Qifeng Wang Jing Xu 《Geological Journal》2016,51(6):880-900
Combined with the actual geological settings, tight oil is the oil that occurs in shale or tight reservoirs, which has permeability less than 1 mD and is interbedded with or close to shale, including tight dolomitic oil and shale oil. The Fengcheng area (FA), at the northwest margin of the Junggar Basin, northwest China, has made significant progress in the tight oil exploration of the Fengcheng (P1f) Formation recently, which indicates that the tight oil resources have good exploration prospects. Whereas the lack of recognition of hydrocarbon generation and expulsion characteristics of Permian P1f source rocks results in the misunderstanding of tight oil resource potential. Based on the comprehensive analysis of geological and geochemical characteristics of wells, seismic inversion, sedimentary facies, tectonic burial depth, etc., the characteristics of P1f source rocks were investigated, and the horizontal distributions of the following aspects were predicted: the thickness of source rocks, abundance and type of organic matter. And on this basis, an improved hydrocarbon generation potential methodology together with basin simulation techniques was applied to unravel the petroleum generation and expulsion characteristics of P1f source rocks in FA. Results show that the P1f source rocks distribute widely (up to 2039 km2), are thick (up to 260 m), have high total organic content (TOC, ranging from 0.15 to 4 wt%), are dominated by type II kerogen and have entered into low mature–mature stage. The modeling results indicate that the source rocks reached hydrocarbon generation threshold and hydrocarbon expulsion threshold at 0.5% Ro and 0.85% Ro and the comprehensive hydrocarbon expulsion efficiency was about 46%. The amount of generation and expulsion from the P1f source rocks was 31.85 × 108 and 15.31 × 108 t, respectively, with a residual amount of 16.54 × 108 t within the source rocks. Volumetrically, the geological resource of shale oil is up to 15.65 × 108 t. Small differences between the amounts calculated by the volumetric method compared with that by hydrocarbon generation potential methodology may be due to other oil accumulations present within interbedded sands associated with the oil shales. Copyright © 2015 John Wiley & Sons, Ltd. 相似文献
2.
Although tight oil has great resource potential, studies of oil charging mechanisms in tight reservoirs are relatively few. Researchers have found that a force balance exists during oil charging, but quantitative analyses of conditions critical for tight oil charging are sparse. This study developed a formula to identify effective source rocks using oil expulsion intensity as the discrimination parameter based on quantitative expression of hydrocarbon-generation overpressure and force-balance conditions. Using this formula, critical oil expulsion intensity under conditions at various burial depths can be obtained. This method was applied in the tight reservoirs of the Jimusar Sag, Junggar Basin, China. The calculated critical oil expulsion intensity range was between 122.61 × 104 t/km2 and 620.01 × 104 t/km2. The distribution range of effective oil source rocks and total expelled oil can be determined on the basis of critical oil expulsion intensity at different burial depths. This method provides a new approach to predict favourable tight oil-bearing regions. 相似文献
3.
T. Hu X. Pang X. Wang H. Pang Y. Liu Y. Wang 《Australian Journal of Earth Sciences》2016,63(3):349-365
The lower–middle Permian Lucaogou (P2l) Formation is a “sandwich-type’’ combination of source rocks and reservoirs that is considered to be a potential tight oil reservoir in the Jimusar Sag (JS). We investigated the P2l Formation using a designated workflow to assess its potential as a viable tight oil reservoir play using geological, petrographical, petrophysical, and geochemical characterisation of core samples. The results showed that the P2l source rocks have a widespread distribution (up to 1500 km2), a huge thickness (up to 160 m), a relatively high abundance of organic matter (averaging 3.12 wt%), a good sapropelic quality, and a moderate thermal maturity. The reservoir consists mainly of dolomites and siltstones, predominantly characterised by secondary dissolved pores, with medium–high porosity (averaging 9.1%) and relative low permeability (averaging 0.26 mD), high abundance of brittle minerals (averaging 87.1%), and low abundance of clay minerals (averaging 11.2%) with low water sensitivity. The results demonstrate that in the JS area the P2l Formation has great potential for tight oil production with its considerable hydrocarbon expulsion quantities, good oil storage capability, and reservoir frackability potential and provide a basis for further evaluation of the tight oil potential of the P2l Formation in the wider Junggar Basin and for identifying similar plays elsewhere. 相似文献
4.
Although it has been shown that the potential of tight‐sand gas resources is large, the research into the mechanisms of hydrocarbon charging of tight sandstone reservoirs has been relatively sparse. Researchers have found that there is a force balance during hydrocarbon charging, but discriminant models still have not been established. Based on the force balance conditions observed during gas migration from source rocks to tight sandstone reservoirs, a calculation formula was established. A formula for identifying effective source rocks was developed with the gas expulsion intensity as the discrimination parameter. The critical gas expulsion intensity under conditions of various burial depths, temperatures, and pressures can be obtained using the calculation formula. This method was applied in the Jurassic tight sandstone reservoirs of the eastern Kuqa Depression, Tarim Basin, and it was calculated that the critical expulsion intensity range from 6.05 × 108 m3/km2 to 10.07 × 108 m3/km2. The critical gas charging force first increases with depth and later decreases with greater depths. The distribution range of effective gas source rocks and total expelled gas volume can be determined based on this threshold. This method provides new insight into and method for predicting favourable tight‐sand gas‐bearing regions and estimating their resource potentials. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献
5.
准噶尔盆地南缘侏罗系烃源岩排烃效率研究 总被引:1,自引:0,他引:1
准噶尔盆地南缘下部成藏组合勘探日趋重要,其主力烃源岩生烃潜力和排烃效率的研究亟待加强。根据排烃门限理论,利用生烃潜力法建立了准噶尔盆地南缘侏罗系烃源岩的生、排烃模式,并计算了烃源岩的生烃量、排烃量和排烃效率。研究表明,准噶尔盆地南缘侏罗系泥质烃源岩和煤层的排烃门限对应的镜质组反射率均为0. 7 %。侏罗系烃源岩的总生烃量为3 973. 84 x 108t,总排烃量为1 402. 71 x108t,其中八道湾组烃源岩排烃量占总排烃量的69.85%。准噶尔盆地南缘侏罗系烃源岩的平均排烃效率为35. 30%,不同层系不同岩性烃源岩,其排烃效率明显不同,泥质烃源岩排烃效率远大于煤层。综合分析认为,准噶尔盆地南缘侏罗系烃源岩生、排烃量大,排烃效率较高,下部成藏组合以侏罗系烃源岩为主力烃源岩,具有良好的资源潜力。 相似文献
6.
塔里木盆地巴楚-麦盖提地区以寒武-奥陶系海相碳酸盐岩为烃源岩,志留-泥盆系三角洲-- 滨岸砂岩为储层,潮坪环境形成的致密泥岩为盖层,形成了断裂型生储盖组合,具有较好的油气勘探前景。通过对研究区志留-泥盆系沉积相带展布、断层发育特征以及古隆起和古斜坡的综合研究,结合烃源岩排烃及已发现油气特征,认为巴楚-麦盖提地区志留-泥盆系油气成藏规律主要受沉积和构造的共同控制,在二叠纪末,寒武-奥陶系烃源岩排烃期已经形成的单斜构造或斜坡带,被长期活动断层沟通了寒武-奥陶系烃源岩的志留-泥盆系储层分布区易于形成油气藏。区内有利油气成藏区带主要为康2--方1 井之间的断裂带与玉1--BK8--巴5 井之间的斜坡带,可能发育的油气藏类型为岩性油气藏和构造--岩性复合油气藏。 相似文献
7.
综合利用录井、镜下薄片及压汞等资料,对准噶尔盆地东部沙帐地区中二叠统平地泉组一段致密油储集层岩性、储集空间和孔隙结构等特征进行了分析,在此基础上结合平一段致密油纵向岩性组合特征及源储关系,总结了平一段致密油源储组合模式。研究发现平一段致密油储集层岩性以碎屑岩为主,云质类岩石次之,储层孔隙结构具"粗态型"、"偏细态型"和"细态型",储集空间表现为常规孔隙与纳米孔隙并存;平一段源储组合表现为"泥包砂"、"砂包泥"和"砂泥互层"。研究表明:平一段储集层表现为致密储层特征,纳米孔喉是致密油储层的主体孔喉,平一段致密油具有源储一体型、源储交接型和源储隔离型三类组合模式。 相似文献
8.
利用显微荧光与包裹体显微测温技术,并结合烃源岩生排烃史分析,探讨了鄂尔多斯盆地陇东地区延长组含油气流体活动期次及石油充注历史。结果表明:陇东地区延长组烃源岩开始排烃的时期为早白垩世早期(约133 Ma),主要存在两期含油气流体活动,第一期含油气流体活动发生在早白垩世主力源岩排烃期间(133~100 Ma),第二期含油气流体活动发生在晚白垩世构造抬升期间(100~70 Ma)。早白垩世期间石油的充注表现为充注强弱程度不同的连续过程,晚白垩世以来生烃停止导致石油的充注与运移逐渐减弱并在晚白垩世末期基本停止。 相似文献
9.
10.
准噶尔盆地东部(准东)油气勘探成效差,是否发育规模有效烃源岩是必须回答的关键科学问题。通过地球化学法、ΔlgR法、井震结合对准东地区二叠系平地泉组烃源岩进行识别和评价,探讨烃源岩的空间分布。研究表明,平地泉组烃源岩以暗色泥岩为主,丰度为中等-好,以半深湖-深湖相泥页岩为优,优质烃源岩在平二段富集。平面上烃源岩富集在准东北部的克拉美丽山前带和南部的博格达山前带,中间被奇台凸起所分割。南、北带内部烃源岩的丰度受次级凹陷分割,表现出西高(TOC>1.5%)东低(0.5%相似文献
11.
为了量化表征北黄海盆地东部坳陷中生界主力烃源岩生、排烃特征,综合利用镜质体反射率(Ro)、残余有机碳含量(TOC)、岩石热解、干酪根镜检及饱和烃色谱等资料,在总结研究区烃源岩地化特征的基础上,通过油源对比明确主力烃源岩层并依托盆地模拟方法量化其生、排烃贡献.结果表明,北黄海盆地东部坳陷中生界的两类原油均来源于区内中侏罗统和上侏罗统两套主力烃源岩层,其中,中侏罗统烃源岩的有机质丰度整体处于"好-最好"级别,上侏罗统烃源岩的有机质丰度则以"中等-好"为主;二者均存在早白垩世末期和早中新世两次生、排烃高峰,但上侏罗统的排烃速率[qe(max)=27.3×106 t/Ma]远高于中侏罗统的排烃速率[qe(max)=4.2×106 t/Ma],对研究区油气成藏的贡献更大.虽然下白垩统暗色泥岩的生烃潜力有限,但其底部砂岩与紧邻上侏罗统主力烃源岩层构成的"下生上储"式的源储配置关系是区内最重要的勘探目的层,其次为中、上侏罗统内部"自生自储"式的有利成藏组合,同时,中侏罗统下部"上生下储"式的成藏组合也应予以重视. 相似文献
12.
Frontier exploration in the Kuqa Depression, western China, has identified the continuous tight-sand gas accumulation in the Lower Cretaceous and Lower Jurassic as a major unconventional gas pool. However, assessment of the shale gas resource in the Kuqa Depression is new. The shale succession in the Middle–Upper Triassic comprises the Taliqike Formation (T3t), the Huangshanjie Formation (T3h) and the middle–upper Karamay Formation (T2–3k), with an average accumulated thickness of 260 m. The high-quality shale is dominated by type III kerogen with high maturity and an average original total organic carbon (TOC) of about 2.68 wt%. An improved hydrocarbon generation and expulsion model was applied to this self-contained source–reservoir system to reveal the gas generation and expulsion (intensity, efficiency and volume) characteristics of Middle–Upper Triassic source rocks. The maximum volume of shale gas in the source rocks was obtained by determining the difference between generation and expulsion volumes. The results indicate that source rocks reached the hydrocarbon expulsion threshold of 1.1% VR and the hydrocarbon generation and expulsion reached their peak at 1.0% VR and 1.28% VR, with the maximum rate of 56 mg HC/0.1% TOC and 62.8 mg HC/0.1% TOC, respectively. The volumes of gas generation and expulsion from Middle–Upper Triassic source rocks were 12.02 × 1012 m3 and 5.98 × 1012 m3, respectively, with the residual volume of 6.04 × 1012 m3, giving an average gas expulsion efficiency of 44.38% and retention efficiency of 55.62%. Based on the gas generation and expulsion characteristics, the predicted shale gas potential volume is 6.04 × 1012 m3, indicating a significant shale gas resource in the Middle–Upper Triassic in the eastern Kuqa Depression. 相似文献
13.
LI Sumei PANG Xiongqi YANG Haijun XIAO Zhongyao GU Qiaoyuan ZHANG Baoshou WANG Haijiang 《《地质学报》英文版》2010,84(5):1157-1169
<正>The oil source of the Tarim Basin has been controversial over a long time.This study characterizes the crude oil and investigates the oil sources in the Lunnan region,Tarim Basin by adopting compound specific isotopes of n-alkanes and biomarkers approaches.Although the crude oil has a good correlation with the Middle-Upper Ordovician(O_(2+3)) source rocks and a poor correlation with the Cambrian-Lower Ordovician((?)-O_1) based on biomarkers,theδ~(13)C data of n-alkanes of the Lunnan oils show an intermediate value between(?)-O_1 and O_(2+3) genetic affinity oils,which suggests that the Lunnan oils are actually of an extensively mixed source.A quantification of oil mixing was performed and the results show that the contribution of the Cambrian-Lower Ordovician source rocks ranges from 11%to 70%(averaging 36%),slightly less than that of the Tazhong uplift.It is suggested that the inconsistency between the biomarkers andδ~(13)C in determining the oil sources in the Lunnan Region results from multiple petroleum charge episodes with different chemical components in one or more episode(s) and different sources.The widespread marine mixed-source oil in the basin indicates that significant petroleum potential in deep horizons is possible.To unravel hydrocarbons accumulation mechanisms for the Lunnan oils is crucial to further petroleum exploration and exploitation in the region. 相似文献
14.
准噶尔盆地陆东-五彩湾地区火山岩中天然气富集的主控因素 总被引:1,自引:0,他引:1
近年来准噶尔盆地陆东-五彩湾地区石炭系火山岩中发现了丰富的天然气资源,包括克拉美丽和五彩湾两个气田,
因此石炭系成为北疆油气勘探的主要目的层之一,陆东-五彩湾地区天然气主要位于石炭系顶部的火山岩风化壳内,主要
为煤成气,来自石炭系腐殖型烃源岩。本文在对陆东-五彩湾地区典型气藏剖面进行分析的基础上,探讨了石炭系火山岩
中天然气富集的主控因素。结果表明,邻近烃源岩和生烃凹陷有利于形成气藏;风化淋滤和构造作用的改造是火山岩物性
得到改善而发育有效储集空间的关键因素;断裂和不整合构成了油气垂向和侧向运移的有利通道;海西期以来的各个构造期,
陆东-五彩湾地区石炭系圈闭和油气藏受到了不同程度的影响,其中火山岩气藏良好的生储盖配置定型于海西期,而燕山
中期则是该区天然气成藏的关键时期。 相似文献
因此石炭系成为北疆油气勘探的主要目的层之一,陆东-五彩湾地区天然气主要位于石炭系顶部的火山岩风化壳内,主要
为煤成气,来自石炭系腐殖型烃源岩。本文在对陆东-五彩湾地区典型气藏剖面进行分析的基础上,探讨了石炭系火山岩
中天然气富集的主控因素。结果表明,邻近烃源岩和生烃凹陷有利于形成气藏;风化淋滤和构造作用的改造是火山岩物性
得到改善而发育有效储集空间的关键因素;断裂和不整合构成了油气垂向和侧向运移的有利通道;海西期以来的各个构造期,
陆东-五彩湾地区石炭系圈闭和油气藏受到了不同程度的影响,其中火山岩气藏良好的生储盖配置定型于海西期,而燕山
中期则是该区天然气成藏的关键时期。 相似文献
15.
准噶尔盆地石炭系中发现自生自储的大型火山岩油气藏,这不仅大大拓宽了油气勘探领域,而且从含油气盆地原型恢复角度为我们提出了一个新的命题。本文对准噶尔盆地东部的石炭纪盆地进行了剖析,在井间地层对比和锆石U-Pb同位素年代学测定基础上,确定了准噶尔盆地石炭系划分方案,建立了准东地区及邻区石炭系的5条联井对比骨干地质剖面,进而把准东地区石炭系盆地的充填过程划分为两个旋回、7个阶段,其中第一旋回为早石炭世,进一步分为4个阶段,第1至第3阶段以各种火山岩发育为特征,第4阶段为火山活动的间歇期,发育了暗色泥质岩。第二旋回为晚石炭世,进一步分为3个阶段,第5和第6两个阶段以发育中基性火山岩为特征,第7阶段以沉火山凝灰岩和与泥质岩、砂岩互层发育为特征。文中归纳了准东地区石炭纪盆地及其中火山岩油气藏烃源岩和储层的发育特点,建立了其盆地原型,指出准东地区石炭系在沉积时的构造古地理以多岛洋为特征,受准噶尔洋的持续向北东方向俯冲的影响,准东地区盆地基底向南西方向倾斜,造成了沉积中心的向南西迁移。考虑到盆地位于增生型造山带内,将其原型盆地称为增生楔盆地。文中特别指出,任何构造位置上形成的盆地都有形成大油气田的潜力,能否形成大油气田的关键在于有没有优质烃源岩、优质储层和有效圈闭。准东增生楔盆地中烃源岩与火山岩储层的空间关系十分密切,二者往往形成互层状或穿插状,这一特征决定了盆地中油气产出具有近源性,而圈闭的形成则因火山岩储层的成层性差而呈形态和类型的多样性。 相似文献
16.
通过烃源岩条件、储层特征与原油类型分布及其来源、源-储配置关系的系统分析,分析了准噶尔盆地吉木萨尔凹陷芦草沟组上、下段致密油系统的自生自储与层控成藏特征。结果表明,芦草沟组咸水湖相沉积中的不同岩性均有不同含量的原始有机质,其中的泥岩有机质丰度和生烃潜力最高,为主力烃源岩,母质类型具倾油特征,处于生油阶段。位于烃源岩层系内的砂岩类与碳酸盐岩类储集层主要为低孔低渗-致密背景,含油性与物性差异存在密切关系。源-储配置表现为互层和泥包砂特征,具有源、储邻近叠置分布的致密油聚集条件。芦草沟组上、下段的原油物性与地化特征存在明显差异,分别主要来自邻近层段烃源岩。综合研究认为吉木萨尔凹陷内芦草沟组具有就近运移、自生自储的层控致密油成藏模式。 相似文献
17.
近年我国在深层、超深层领域获得一系列重大突破,深层油气勘探的重要性日益突出。而准噶尔盆地深层的勘探尚处于初期阶段,有必要对准噶尔盆地深层油气形成条件开展系统研究梳理。在前人研究认识的基础上,结合新钻井资料对深层源岩成烃、成储及成藏的关键地质条件进行系统分析。研究表明:(1)深部存在多套烃源岩并且达到成熟高成熟阶段,受到多期构造运动、异常高压等外部环境的影响,深部源岩的生烃过程复杂,但整体生烃潜力大,能够提供充足的油气;(2)在深埋条件下,深部致密的储层受到多期构造活动叠加造缝、风化淋滤、烃类生成造成的有机酸溶蚀及早期充注、异常高压4个方面改善作用的影响,依然存在优质储集层;(3)油气的成藏受控于深部源岩的成烃及成储过程,表现为多期油气充注的特点,油气的富集类型受控于源岩母质的供烃类型,不同深层领域的油气成藏有其差异性;(4)盆地富烃凹陷内及斜坡区的深大构造与地层岩性目标,以及盆地深部含致密油、致密气资源的二叠系与盆地腹部含致密砂岩气的侏罗系煤系均具有利的成藏条件,是盆地深层油气勘探的有利领域。 相似文献
18.
The paper systematically analyzes the hydrocarbon migration characteristics of the Lower Cretaceous in the Erlian Basin, based on the geochemical data of mudstone and sandstone in the main hydrocarbon-generating sags. (1) The source rocks in K1ba and K1bt1 are estimated to be the mature ones, their hydrocarbon expulsion ratio can reach 32%-72%. The Type-I sags in oil windows possess good hydrocarbon generation and expulsion conditions, where commercial reservoirs can be formed. (2) According to the curves of the mudstone compaction and evolution of clay minerals, the rapid compaction stage of mudstones is the right time of hydrocarbon expulsion, i.e., primary migration. (3) The timing between hydrocarbon generation and expulsion is mainly related to the accordance of the oil window and the rapid compaction stage of mudstones in the hydrocarbon generation sags of Type-I. That forms the most matching relation between hydrocarbon generation and migration. (4) The faults and unconformities are the important paths for the secondary hydrocarbon migration. Especially, the unconformity between K1ba and K1bt1 has a favorable condition for oil accumulation, where the traps of all types are the main exploration targets. (5) Hydrocarbon migration effect, in the Uliastai sag, is most significant; that in the Saihan Tal and Anan sags comes next, and that in the Bayandanan and Jargalangt sags is worst. 相似文献
19.
准噶尔盆地古近系是该盆地的一个潜在勘探层系,本文研究了研究区古近系烃源岩的生烃潜力及油气源特征。结果表明,准噶尔盆地古近系发育一定数量和规模的泥质烃源岩,有机质丰度达到了中等-好质量标准,类型以I型和Ⅱ型为主,目前主体处于低成熟-成熟演化阶段,因此具有一定的生烃、生油潜力。这得到了油气源对比研究的印证,典型油气地球化学特征均表现为油型,且为低成熟度,因此只能与古近系烃源岩对应,从而判断为古近系来源。这些油气主要分布在盆地南缘古近系烃源岩埋深较大区,表现出在"源控"基础上受成熟度影响的特征。准噶尔盆地古近系的油气勘探应以原油为主,并且重点目标区在南缘,特别是四棵树凹陷区。这些基础数据和认识还可供全球其它古近系含油气系统研究类比参考。 相似文献
20.
《地学前缘(英文版)》2020,11(6):1901-1913
The significance of source rocks for oil and gas accumulation has been indisputably acknowledged. Moreover, it has been gradually realized that there is difference between hydrocarbon generation capacity and hydrocarbon expulsion capacity, and this has prompted research on hydrocarbon expulsion efficiency. However, these studies dominantly highlight the results of hydrocarbon expulsion, and investigation into the corresponding process and mechanism is primarily from a macroscopic perspective. Despite its wide acceptance as the most direct hydrocarbon expulsion mode, hydrocarbon expulsion through micro-fractures is still not sufficiently understood. Therefore, this study obtains observations and performs experiments on two types of source rocks (mudstones and shales) of the Chang 7 oil group of the Yanchang Formation in Ordos Basin, China. Microscopy reveals that organic matter is non-uniformly distributed in both types of source rocks. Specifically, mudstones are characterized by a cluster-like organic matter distribution, whereas shales are characterized by a layered organic matter distribution. Thermal evolution simulation experiments demonstrate that the hydrocarbon generation process is accompanied by the emergence of micro-fractures, which are favorable for hydrocarbon expulsion. Moreover, based on the theories of rock physics and fracture mechanics, this study establishes micro-fracture development models for both types of source rocks, associated with the calculation of the fracture pressure that is needed for the initiation of fracture development. Furthermore, the relationship between the fluid pressure, fracture pressure, and micro-fracture expansion length during micro-fracture development is quantitatively explored, which helps identify the micro-fracture expansion length. The results indicate that the development of micro-fractures is commonly impacted by the morphology and distribution pattern of the organic matter as well as the mechanical properties of the source rocks. The micro-fractures in turn further affect the hydrocarbon expulsion capacity of the source rocks. The results of this study are expected to provide theoretical and practical guidance for the exploration and exploitation of tight oil and shale oil. 相似文献