共查询到20条相似文献,搜索用时 15 毫秒
1.
Mohamed Ragab Shalaby Mohammed Hail Hakimi Wan Hasiah Abdullah 《International Journal of Earth Sciences》2013,102(1):319-332
The Shoushan Basin is an important hydrocarbon province in the northern Western Desert, Egypt, but the burial/thermal histories for most of the source rocks in the basin have not been assigned yet. In this study, subsurface samples from selected wells were collected to characterize the source rocks of Alam El-Bueib Formation and to study thermal history in the Shoushan Basin. The Lower Cretaceous Alam El-Bueib Formation is widespread in the Shoushan Basin, which is composed mainly of shales and sandstones with minor carbonate rocks deposited in a marine environment. The gas generative potential of the Lower Cretaceous Alam El-Bueib Formation in the Shoushan Basin was evaluated by Rock–Eval pyrolysis. Most samples contain sufficient type III organic matter to be considered gas prone. Vitrinite reflectance was measured at eight stratigraphic levels (Jurassic–Cretaceous). Vitrinite reflectance profiles show a general increase of vitrinite reflectance with depth. Vitrinite reflectance values of Alam El-Bueib Formation range between 0.70 and 0.87 VRr %, indicating a thermal maturity level sufficient for hydrocarbon generation. Thermal maturity and burial histories models predict that the Alam El-Bueib source rock entered the mid-mature stage for hydrocarbon generation in the Tertiary. These models indicate that the onset of gas generation from the Alam El-Bueib source rock began in the Paleocene (60 Ma), and the maximum volume of gas generation occurred during the Pliocene (3–2 Ma). 相似文献
2.
YANG Minghui LI Liang ZHOU Jin JIA Huichong SUN Xiao GONG Ting DING Chao 《《地质学报》英文版》2015,89(5):1636-1648
The hydrocarbon potential of the Hangjinqi area in the northern Ordos Basin is not well known, compared to the other areas of the basin, despite its substantial petroleum system.Restoration of a depth-converted seismic profile across the Hangjinqi Fault Zone(HFZ) in the eastern Hangjinqi area shows one compression that created anticlinal structures in the Late Triassic, and two extensions in ~Middle Jurassic and Late Early Cretaceous, which were interrupted by inversions in the Late Jurassic–Early Early Cretaceous and Late Cretaceous, respectively.Hydrocarbon generation at the well locations in the Central Ordos Basin(COB) began in the Late Triassic.Basin modeling of Well Zhao-4 suggests that hydrocarbon generation from the Late Carboniferous–Early Permian coal measures of the northern Shanbei Slope peaked in the Early Cretaceous, predating the inversion in the Late Cretaceous.Most source rocks in the Shanbei Slope passed the main gas-migration phase except for the Hangjinqi area source rocks(Well Jin-48).Hydrocarbons generated from the COB are likely to have migrated northward toward the anticlinal structures and traps along the HFZ because the basin-fill strata are dipping south.Faulting that continued during the extensional phase(Late Early Cretaceous) of the Hangjinqi area probably acted as conduits for the migration of hydrocarbons.Thus, the anticlinal structures and associated traps to the north of the HFZ might have trapped hydrocarbons that were charged from the Late Carboniferous–Early Permian coal measures in the COB since the Middle Jurassic. 相似文献
3.
Thamer Khazal Al-Ameri Janet Pitman Madhat E. Naser John Zumberge Hiba Adil Al-Haydari 《Arabian Journal of Geosciences》2011,4(7-8):1239-1259
1D petroleum system modeling was performed on wells in each of four oil fields in South Iraq, Zubair (well Zb-47), Nahr Umr (well NR-9), West Qurna (well WQ-15 and 23), and Majnoon (well Mj-8). In each of these fields, deposition of the Zubair Formation was followed by continuous burial, reaching maximum temperatures of 100°C (equivalent to 0.70%Ro) at depths of 3,344–3,750 m of well Zb-47 and 3,081.5–3,420 m of well WQ-15, 120°C (equivalent to 0.78%Ro) at depths of 3,353–3,645 m of well NR-9, and 3,391–3,691.5 m of well Mj-8. Generation of petroleum in the Zubair Formation began in the late Tertiary, 10 million years ago. At present day, modeled transformation ratios (TR) indicate that 65% TR of its generation potential has been reached in well Zb-47, 75% TR in well NR-9 and 55-85% TR in West Qurna oil field (wells WQ-15 and WQ-23) and up to 95% TR in well Mj-8, In contrast, younger source rocks are immature to early mature (<20% TR), whereas older source rocks are mature to overmature (100% TR). Comparison of these basin modeling results, in Basrah region, are performed with Kifle oil field in Hilla region of western Euphrates River whereas the Zubair Formation is immature within temperature range of 65–70°C (0.50%Ro equivalent) with up to 12% (TR?=?12%) hydrocarbon generation efficiency and hence poor generation could be assessed in this last location. The Zubair Formation was deposited in a deltaic environment and consists of interbedded shales and porous and permeable sandstones. In Basrah region, the shales have total organic carbon of 0.5–7.0 wt%, Tmax 430–470°C and hydrogen indices of up to 466 with S2?=?0.4–9.4 of kerogen type II & III and petroleum potential of 0.4–9.98 of good hydrocarbon generation, which is consistent with 55–95% hydrocarbon efficiency. These generated hydrocarbons had charged (in part) the Cretaceous and Tertiary reservoirs, especially the Zubair Formation itself, in the traps formed by Alpine collision that closed the Tethys Ocean between Arabian and Euracian Plates and developed folds in Mesopotamian Basin 15–10 million years ago. These traps are mainly stratigraphic facies of sandstones with the shale that formed during the deposition of the Zubair Formation in transgression and regression phases within the main structural folds of the Zubair, Nahr Umr, West Qurna and Majnoon Oil fields. Oil biomarkers of the Zubair Formation Reservoirs are showing source affinity with mixed oil from the Upper Jurassic and Lower Cretaceous strata, including Zubair Formation organic matters, based on presentation of GC and GC-MS results on diagrams of global petroleum systems. 相似文献
4.
南黄海盆地油气资源潜力一直是中国海上油气勘探关心的问题,但仍未取得突破性进展。生烃动力学研究对烃源岩生烃潜力评价至关重要,而该区古近系烃源岩的生烃动力学的研究十分薄弱。为此,在对南黄海盆地南部凹陷烃源岩常规地球化学分析统计基础上,着重选择南二凹低成熟样品开展PY-GC,SRA 和MSSV 等实验分析及动力学模拟。结果表明:南二凹阜四段烃源岩已进入生烃阶段,其产出的石油类型为石蜡-环烷-芳香基低蜡型,活化能分布范围为43~60 kcal/mol,其活化能主峰为51 kcal/mol,占72%,指前因子A=9.66×1012,生烃窗温度为128~158℃。该套烃源岩生烃历程中所生成的烃类在渐新世末期(23~30 Ma)以气液两相共存的形式存在,其余时期均以单一液相存在于该地层,至今转化率仍处于50%~60%。研究获得的南黄海盆地南二凹古近系泥岩的生烃动力学特征对于估算该盆地油气资源潜力极为重要,可为该区下一步油气勘探开发决策提供参考依据。 相似文献
5.
南黄海盆地油气资源潜力一直是中国海上油气勘探关心的问题,但仍未取得突破性进展。生烃动力学研究对烃源岩生烃潜力评价至关重要,而该区古近系烃源岩的生烃动力学的研究十分薄弱。为此,在对南黄海盆地南部凹陷烃源岩常规地球化学分析统计基础上,着重选择南二凹低成熟样品开展PY-GC,SRA 和MSSV 等实验分析及动力学模拟。结果表明:南二凹阜四段烃源岩已进入生烃阶段,其产出的石油类型为石蜡-环烷-芳香基低蜡型,活化能分布范围为43~60 kcal/mol,其活化能主峰为51 kcal/mol,占72%,指前因子A=9.66×1012,生烃窗温度为128~158℃。该套烃源岩生烃历程中所生成的烃类在渐新世末期(23~30 Ma)以气液两相共存的形式存在,其余时期均以单一液相存在于该地层,至今转化率仍处于50%~60%。研究获得的南黄海盆地南二凹古近系泥岩的生烃动力学特征对于估算该盆地油气资源潜力极为重要,可为该区下一步油气勘探开发决策提供参考依据。 相似文献
6.
We have evaluated the hydrocarbon-bearing potential of Middle Jurassic marine source rocks in the Qiangtang Basin, Tibet, through a comprehensive study of samples from a large number of surface outcrops in different structural units, and from the Qiang-D2 Well in the southern Qiangtang Depression. Data that were acquired, including the depositional environment, thickness of sedimentary units, and organic geochemistry, are used to identify the principal controlling factors and predict the location of favorable hydrocarbon kitchens. The source rocks are mainly platform limestone of the Middle Jurassic Buqu Formation. This formation comprises a suite of intra-platform sag marls, micrites, and black shales that were deposited in a deep-water and restricted depositional environment. The marls form hydrocarbon-rich source rocks with organic matter that is mainly type II and in the mature to highly mature stage. In the Dongco–Hulu Lake and Tupoco–Baitan Lake deep sags, limestone also forms a medium-level source rock. In the Qiangtang Basin, limestone is the favorable source rock kitchen and is more significant in this regard than mudstone. The results provide important constraints on evaluating the hydrocarbon potential of Jurassic marine source rocks and for locating petroleum resources in the Qiangtang Basin. 相似文献
7.
Gas systems in the Kuche Depression of the Tarim Basin: Source rock distributions, generation kinetics and gas accumulation history 总被引:2,自引:0,他引:2
Wenzhi Zhao Shuichang Zhang Feiyu Wang Bernhard Cramer Jianping Chen Yongge Sun Baomin Zhang Mengjun Zhao 《Organic Geochemistry》2005,36(12):1583
Six petroleum source beds have been developed in the Kuche Depression (also known as “Kuqa Depression”) of the Tarim Basin, including three lacustrine source rocks (Middle and Upper Triassic Kelamayi and Huangshanjie formations, and Middle Jurassic Qiakemake Formation) and three coal measures (Upper Triassic Taliqike Formation, Lower Jurassic Yangxia Formation, and Middle Jurassic Kezilenuer Formation). While type I–II organic matter occurs in the Middle Jurassic Qiakemake Formation (J2q), other source beds contain dominantly type III organic matter. Gas generation rates and stable carbon isotopic kinetics of methane generation from representative source rocks collected in the Kuche Depression were measured and calculated using an on-line dry and open pyrolysis system. Combined with hydrocarbon generation history modelling, the formation and evolution processes of the Jurassic–Triassic highly efficient gas kitchens were established. High sedimentation rate in the Neogene and the fast deposition of the Kuche Formation within the Pliocene (5 Ma) in particular have led to the rapid increase in Mesozoic source rock maturity, resulting in significant dry gas generation. The extremely high gas generation rates from source kitchens have apparently expedited the formation of highly efficient gas accumulations in the Kuche Depression. Because different Mesozoic source rocks occur in different structural belts, the presence of both lacustrine and coaly gas kitchens during the Cenozoic time can be identified in the Kuche Depression. As shown by the chemical and stable carbon isotope compositions of the discovered gases, the formation of the giant gas pools in the Kela 2, Dina 2, Yaha and Wucan 1 have involved very different geological processes due to the difference in their gas source kitchens. 相似文献
8.
The discovery of hydrocarbons (mainly gas) in commercial quantities from Gondwanan sediments in the Mandapeta field of Krishna-Godavari Basin, India, provided impetus for intensified exploration in Mandapeta and the adjoining Kommugudem, Draksharama and Endamuru fields. Both oil and gas have been found in the reservoirs of Mandapeta (Triassic) and Golapalli (Early Cretaceous) formations. Mature, localised, basal shales (1.0–1.1% Ro) in the Mandapeta formation have sourced the oils from the Mandapeta Sandstone reservoir (Triassic). The oils being produced from Golapalli Sandstone reservoir (Early Cretaceous) are relatively less mature and have been sourced by the underlying shales in the Mandapeta Formation at a maturity level of 0.80–0.85% Ro. The source and maturity data preclude liquid hydrocarbon sourcing from the Kommugudem (Permian) sequence. Permian coals and shales of the Kommugudem Formation are the major source rocks for gaseous hydrocarbons in this area. The hydrocarbon generation started in Early Cretaceous in the Kommugudem Formation, but the intermittent tectonic activity (with associated structural developments) has resulted in reorientation and redistribution of the then existing trap configurations. The present day maturity level of the Permian sediments in the Mandapeta field is 1.2% Ro or greater, capable of generating gas dominantly. The Raghavapuram shale in the Mandapeta area is adequately mature and has good hydrocarbon potential for oil generation. The probability of finding hydrocarbon reserves in the sands of Raghavapuram shales and other suitable traps is high. Modern seismic information together with geologic models can give new exploration leads. 相似文献
9.
海相低勘探程度地区油气资源评价的难点是资料少、地质认识程度低、主要参数获取难度大,影响评价结果可信性。以柴达木盆地德令哈坳陷石炭系为例,系统评价德令哈坳陷石炭系生储盖条件,油气资源评价选用盆地模拟法与类比法相结合方法,关键参数的确定采用了地球物理、地球化学与石油地质学等多种方法,利用油气运移聚集模拟和不同运聚单元资源量计算结果划分有利勘探区带,充分发挥不同方法的特点。评价结果表明:柴达木盆地德令哈坳陷上石炭统发育有泥岩、碳质泥岩、煤和泥灰岩等4类烃源岩,下石炭统发育泥岩和泥灰岩等2类烃源岩;上石炭统烃源岩有机质丰度较高,克鲁克组多数泥岩、碳质泥岩、煤和泥灰岩TOC含量分别为大于1.0%、6.0%~10.0%、大于60%、大于0.3%,有机质类型主要为Ⅱ和Ⅲ型,少量的Ⅰ型,成熟度均已达到成熟,具有较好的生烃潜力;石炭系发育碎屑岩储层和碳酸盐岩储层,并发育有多套盖层,生储盖组合类型有自生自储自盖式、下生上储上盖式和上生下储上盖式,石油地质条件总体较好;石炭系主要生烃时期为石炭纪晚期—三叠纪中期,生烃高峰时期为二叠纪中期—三叠纪中期;德令哈坳陷石炭系的油气资源量达到3.83×108 t(油当量),石油资源量为1.63×108 t,天然气资源量为2 760.21×108 m3,油气主要分布于欧南凹陷和欧龙布鲁克凸起两个构造单元。 相似文献
10.
油气超长运移距离 总被引:6,自引:1,他引:5
塔里木盆地塔北地区广泛分布着来自于库车坳陷的陆相油气,其运移距离超过100km,是一个比较典型的油气超长距离运移实例。本文在结合油气勘探基础资料的基础上,通过对出油井的详细地球化学研究,综合油气运移条件的分析,探讨了油气超长运移的地质条件与动力机制。研究认为,在哈拉哈塘和英买力南部地区白垩系砂岩储层中发现的油气来源于北部库车坳陷的三叠系湖相烃源岩,成藏时间在5~3Ma;油气主要通过断裂沟通不整合面以及白垩系巴西改组的砂体进行长距离侧向运移,运移的直线距离达到110~130km。研究发现,库车坳陷三叠系优质烃源岩短期内快速熟化并高效排烃,为油气长距离运移提供了充沛的油源和驱动力条件;白垩系巴西改组油层在致密顶底板岩层的封堵约束作用下,油气沿着宽缓斜坡上大面积分布的连通砂体呈面状发生长距离运移,沿途缺少大型圈闭拦截和聚油,油气损失相对较少,所以油气在通畅的运移道路上持续向南推进,这是该区油气发生超长运移的主要动力机制。超长的运移距离,与该区低幅度宽缓的斜坡构造背景和良好的输导通道密切相关,因此,在已发现白垩系出油井点以南更远地区还将不断会有陆相油的新发现;在油气运移经过的地区,白垩系内只要存在圈闭,均可形成油藏,因此,低幅度构造圈闭与岩性地层圈闭所形成的中小型油气田群将作为今后勘探的主要目标。 相似文献
11.
河北霸县凹陷兴隆宫地区沙三段岩性油气藏成藏条件与圈闭模式 总被引:2,自引:2,他引:0
裂谷型凹陷深层的油气勘探前景一直为众多学者所关注。兴隆宫地区紧临霸县生油洼槽,其沙三段埋深较大,勘探程度较低,少量探井证实这一些地区的沙三段具良好的油气成藏前景。应用石油地质学中的油气成藏理论,系统论述该区有利的岩性油气藏成藏条件与圈闭模式:沙三段圈闭接近沙四段、沙三段及沙一段的油源,具有优越的油气源条件;沙三段大型三角洲前缘与浊积扇等储层条件较好;沙三段同沉积构造与坡折带利于岩性油气藏形成;膏泥岩、盐岩及泥岩提供盖层与保存条件。而该区沙三段岩性油气藏成藏的圈闭模式可分为3个区带:陡坡带主要发育构造—岩性圈闭、小型三角洲前缘砂岩岩性圈闭;缓坡带以大型三角洲前缘砂岩岩性圈闭、地层超覆、地层不整合圈闭为主;而洼槽带以坡折附近的尖灭砂体圈闭为主。陡坡坡折之下发育扇三角洲前缘与浊积扇圈闭;缓坡坡折之下发育与低位三角洲、浊积扇及滩坝砂体有关的岩性圈闭。通过研究可以确定东部文安缓坡坡折带以下地区是目前岩性油气藏的最有利勘探区带。 相似文献
12.
随着四川盆地海相常规天然气和页岩气勘探开发的成功,新区、新层系的油气勘探逐渐提上议程。云南地区泥盆系泥页岩在局部地区广泛分布,有机质丰度较高,但钻井工作很少,研究较为薄弱,油气富集情况不明。通过野外调查,在云南禄劝地区中泥盆统华宁组发现了液态油苗。有机地球化学分析表明:油苗与中泥盆统华宁组三段的泥灰岩亲缘关系较好;中泥盆统华宁组三段的泥灰岩整体沉积于强还原—还原环境,生烃母质主要为藻类等低等水生生物,也有来自高等植物的贡献,已处于成熟阶段,具有较强的油气生成能力,生烃能力与Ⅱ1型烃源岩相当;康滇古陆西缘泥盆系泥灰岩有过生油气过程,生成的原油以饱和烃和芳香烃为主,且保存条件好的情况下,具有一定的页岩油气和常规油气勘探前景。 相似文献
13.
新疆三塘湖盆地石炭系含油气系统初步评价 总被引:1,自引:0,他引:1
新疆三塘湖盆地晚古生代发育哈尔加乌组和卡拉岗组陆相火山喷发岩系,二者在岩石组合上均以中酸性火山岩及其碎屑岩为主,局部夹基性火山岩。通过岩性剖面和化石组合对比认为哈尔加乌组和卡拉岗组为同一时代地层,没有上下关系,时代为晚石炭世—早二叠世。对哈尔加乌组火山岩进行锆石SHRIMP U Pb定年获取年龄值为3196±98 Ma,表明这套火山岩含有石炭纪的部分,限定这套火山岩系的喷发时限为石炭纪中期至早二叠世。哈尔加乌组和卡拉岗组火山岩发育多期的火山喷发—沉积旋回,形成巨厚层的火山岩和火山碎屑岩的互层,具备良好的油气储集条件,其下伏老爷庙组暗色泥岩夹层有机碳(TOC)含量较高(071%162%),属于一般烃源岩—好烃源岩,这套烃源岩与哈尔加乌组—卡拉岗组火山岩构成生储盖组合,上覆上二叠统芨芨槽子群泥岩为盖层,构成盆地与火山岩相关的石炭系含油气系统,具有重大的石油地质意义。 相似文献
14.
B. Ayling J. Huntington B. Smith D. Edwards 《Australian Journal of Earth Sciences》2016,63(8):1069-1085
The Georgina Basin is a Neoproterozoic–Paleozoic basin that spans parts of the Northern Territory and Queensland in northern Australia. The basin is prospective for petroleum, phosphate and base metals (copper, lead and zinc). The Dulcie and Toko synclines in the southern part of the basin are prospective for petroleum, where a thick Cambro-Ordovician succession of marine carbonates hosts several source rocks and associated oil and gas shows. The key source rock units occur within the middle Cambrian Narpa Group, including both the Thorntonia Limestone (Series 2 and 3) and the Arthur Creek Formation (Series 3). The base of the Arthur Creek Formation is characterised by organic-rich ‘hot’ shales (associated with a prominent gamma spike in well logs) that have been targeted by petroleum explorers for both conventional and unconventional oil and gas. For this study, hyperspectral logging data collected by HyLogger? instruments were evaluated from 13 wells in the southern Georgina Basin, including petroleum, mineral and stratigraphic wells. Formation boundaries are commonly (but not always) characterised by distinctive changes in mineralogy, as determined by spectral and X-ray diffraction data. Key source rock units in the southern Georgina Basin were characterised and mapped in terms of their mineralogy, and other spectral properties (e.g. Short-Wave Infrared (SWIR) reflectance and spectral contrast). Interpretation of the hyperspectral data alongside wireline log data supports the differentiation of two successions within the Arthur Creek Formation that are each characterised by basal organic-rich shales, previously distinguished on the basis of biostratigraphic and well-log data. The older succession in the Dulcie Syncline is spectrally characterised as being quartz and carbonate dominated. The younger succession, distributed across the eastern part of the Dulcie Syncline and fully across the Toko Syncline, is spectrally characterised as quartz and carbonate dominated, with variable white-mica contributions. Key associations are observed between the HyLogger mineralogy and geophysical-log data. Peaks in the gamma log intensity in the middle Cambrian sediments commonly correspond to elevated measured total organic carbon contents, decreased carbonate contribution, SWIR reflectance and spectral contrast, and relatively increased proportions of white micas and quartz. This study demonstrates that HyLogging data can provide an improved understanding of the sedimentological, mineralogical and diagenetic characteristics, as well as associated spatial heterogeneity, of prospective hydrocarbon formations in sedimentary basins. 相似文献
15.
《China Geology》2020,3(4):623-632
North Carnarvon Basin is a gas province with minor oily sweet spots in deepwater area with water depth more than 500 m, which is one of the hot spots of global petroleum exploration for its series of giant hydrocarbon discoveries in recent years. However, the degree of oil and gas exploration in deepwater area is still low, and the conditions for oil and gas accumulation are not clear. Based on the current exploration situation and latest database of fields, applying multidisciplinary analysis of hydrocarbon geology, hydrocarbon accumulation elements and its exploration direction of North Carnarvon Basin in deepwater area are analyzed. The results show that there are three sets of main source rocks in deepwater area of North Carnarvon Basin, which are Triassic marine shale in Locker Formation and delta coal-bearing mudstone with thin carbonaceous mudstone in Mungaroo Formation, Lower –Middle Jurassic paralic carbargilite and coal measure strata in Athol Formation and Murat Formation, Cretaceous delta mudstone in Barrow Group and marine shale in Muderong Formation. Most source rock samples show gas-prone capability. The coarse sandstone of delta facies in Middle–Upper Triassic Mungaroo Formation is the most important reservoir in deepwater area, Lower Cretaceous Barrow Group deep-water gravity flow or underwater fan turbidite sandstone is the secondly main reservoir. Lower Cretaceous marine shale in Muderong Formation is most important regional caprock. Triassic mudstone in Mungaroo Formation is an important interlayer caprock in deepwater area. There are two main reservoir accumulation assemblages in deepwater area, one is Triassic structural-unconformity plane reservoir accumulation assemblage of Locker Formation to Mungaroo Formation, and the other is Lower–Middle Jurassic Athol Formation and Murat Formation–Lower Cretaceous stratigraphic lithology-structural reservoir accumulation assemblage of Barrow Group to Muderong Formation. There are three main control factors of hydrocarbon Accumulation: One is coupling of source and seal control hydrocarbon distribution area, the second is multi-stage large wave dominated deltas dominate accumulation zone, the third is direction of hydrocarbon migration and accumulation in hydrocarbon-rich generation depression was controlled by overpressure. The south of Exmouth platform in deepwater area is adjacent to hydrocarbon rich depression zone, reservoir assemblage is characterized by “near source rocks, excellent reservoir facies, high position and excellent caprocks ”, which is the main battlefield of deepwater oil and gas exploration in North Carnarvon Basin at present. There are a lot of fault block traps in the northern structural belt of Exmouth platform, and the favorable sedimentary facies belt at the far end of delta plain in Mungaroo Formation is widely distributed, which is the next favorable exploration zone. The Lower Cretaceous, which is located at the concave edge uplift adjacent to the investigator depression and the Exmouth platform, also has a certain exploration prospect in northwest of deepwater area. 相似文献
16.
本文基于塔里木盆地原油中发现的89属183种孢子花粉化石和16属27种菌藻类化石的研究,通过孢粉化石的油源对比确认中代陆相油源的重要贡献、并根据孢子花粉母体植物和藻类的生态特征讨论了油源岩形成的环境。 相似文献
17.
鄂尔多斯盆地延长组深湖相页岩在盆地内部均有分布,但在其西缘冲断带地区是否仍然存在、如何分布、是否具有生烃潜力,这些问题尚待进一步研究。本文根据近期在石沟驿向斜所钻的驿探1及其周边钻井、露头和地震资料对延长组暗色页岩厚度、层位、展布和生烃条件进行了研究。烃源岩测井响应、地震层位追定、地震正演模型及烃源岩热解等分析结果表明:(1)青铜峡-固原断裂以东的西缘冲断带中部马家滩地区仍然发育2-4层延长组黑色烃源岩,呈高伽马、高时差和低电阻率测井响应特征,但其单层厚度较薄,一般只有3-5m,累计厚度最大20m左右,一般分布在长10、长9、长8和长7等层位,在地震剖面上以强振幅响应;(2)与盆地内部不同,马家滩地区在延长组底部长10出现薄层黑色页岩,并成为区分上、中三叠统的标志;(3)马家滩地区深浅湖呈"十字"分布,与盆地主体湖盆并不连通,单独存在。主体生油岩为长9-长10段烃源岩;(4)驿探1井热解样品均达到较好-好的烃源岩条件,具备较好生烃潜力。 相似文献
18.
烃源岩生烃动力学广泛应用于含油气盆地烃源岩评价与勘探中。为模拟低成熟烃源岩的实际沉积环境,实验选取了抽提有机质后的东营凹陷下第三系沙河街组三、四段烃源岩为矿物催化剂,以十八烷酸甲酯为模型化合物,在高压下做矿物低温催化脂肪酸酯脱羧生烃动力学实验。求取了化学反应的动力学参数,并分析了烃源岩层段的pH值与Eh值。结果表明,矿物对脂肪酸酯的脱羧生烃具有明显的催化作用,用连串反应模型处理脂肪酸酯的水解反应基本上为一级反应,而生烃反应则基本上为零级反应。认为对于同一类型的烃源岩,其所处的氧化还原环境对有机质的生烃有较大的影响;而对于不同的烃源岩,矿物的组成则起着非常重要的作用。 相似文献
19.
焉耆盆地侏罗系油气成藏期次分析 总被引:7,自引:2,他引:7
着重用油藏地球化学分析方法探讨了焉耆盆地侏罗系油气藏的成藏时间和期次。油源对比表明八道湾组是主力烃源岩层,三叠系烃源岩对八道湾组原油有一定贡献;油气经短距离的侧向运移后,沿断层通道向上进入三工河组和西山窑组。盆地经历了2次生烃,侏罗纪末期为主要生烃期,第三纪晚期为次要生烃期。储层流体包裹体分布特征、均一温度和组分特征、储层自生伊利石测年和油气成熟度分析都显示了焉耆盆地在侏罗纪中晚期的2次成藏作用,即晚侏罗世以八道湾组低成熟油气的生成、运移和聚集为主的第1期成藏事件和侏罗纪末期以成熟油气的生成、运移和聚集为主的第2期成藏事件,受储层流体包裹体和自生伊利石形成机理的控制,第三纪晚期生烃、成藏事件在流体裹体和储层自生伊利石同位素年代学上均没有记录。侏罗纪末期是主要成藏期,第三纪晚期是调整成藏和定型期。 相似文献
20.
《Journal of Asian Earth Sciences》1999,17(1-2):269-294
The Cenozoic Song Hong Basin, situated on the northern part of the Vietnamese shelf, has been only sporadically explored for hydrocarbons. A review of the results of the exploration efforts so far shows that the distribution of potential source rocks and their time of hydrocarbon generation are the critical risks for finding commercial amounts of hydrocarbons. In the Song Hong Basin, including the Hanoi Trough, the rocks most likely to have source potential are: (1) oil-prone Eocene–Lower Oligocene lacustrine mudstones and coals, (2) oil- and gas-prone Middle Miocene coal beds, (3) gas-prone Upper Oligocene–Lower Miocene coals, and (4) gas- and oil-prone Miocene marine mudstones. To assess the time of hydrocarbon generation from these units, relative to the formation of traps, the generation history was modelled at 32 well and pseudo-well locations. The modelling demonstrates that the two first-mentioned source rock units are especially important. In the northern and northeastern part of the basin and along its western margin traps may have been charged by Eocene–Lower Oligocene source rocks. In the Hanoi Trough, the excellent Middle Miocene coal beds have probably generated hydrocarbons within the last few million years. Thus the huge and still underexplored Song Hong Basin provides attractive areas for further exploration. 相似文献