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1.
同一洼陷不同次洼的烃源岩及生成的原油,由于古气候、古沉积环境较为相似,其常规生物标志化合物和同位素特征差别非常小,给油源分析带来困难。通过GC-MS分析提取原油和烃源岩中分子化石信息,主要依据4 甲基甾烷的相对含量和不同构型的4 甲基甾烷的分布特征来进行油源对比,为类似地区的油源分析提供了一种新思路。渤南洼陷发育Es4s和Es3x两套主力烃源岩,中部次洼、西部次洼和渤南深洼Es3x烃源岩的4 甲基甾烷/C29甾烷值分别为4.51、2.79、1.27,是由于烃源岩中沟鞭藻有机质占总有机质的比例不同所造成。不同地区原油C20、C21、C23三环萜烷和ααα20RC27、C28、C29规则甾烷等特征非常相似,成熟度相当,中、西、东三个地区原油的4 甲基甾烷/C29甾烷值分别为2.89,2.39和2.06,区别明显,各个地区4 甲基甾烷的构型也不同。对比结果表明,渤南洼陷北部陡坡带Es4s和Es3x油气均为近源成藏,主要来源于其临近次洼的Es3x烃源岩。 相似文献
2.
南堡油田是渤海湾盆地近年发现的油气储量可观的新油田,为揭示该油田原油特征与成因,对43个原油样品、31块泥岩样品进行详细的地球化学研究与油源对比。依据特征生物标志物、单体烃碳同位素分析,将南堡油田原油分为3种类型:Ⅰ类,南堡1、2号构造带古近系+新近系原油;Ⅱ类,南堡3、4、5号构造带古近系+新近系原油;Ⅲ类,南堡凹陷已发现奥陶系潜山原油。Ⅰ类原油以较低的重排甾烷/规则甾烷,较高的甾烷/藿烷、4-甲基甾烷/C29规则甾烷、伽马蜡烷/C30藿烷值及正构烷烃单体烃碳同位素相对偏重等特征区别于Ⅱ类原油;Ⅲ类原油以较高成熟度、正构烷烃单体烃碳同位素总体偏重等特征不同于Ⅰ、Ⅱ类原油。油源对比结果表明,Ⅰ类原油为沙二+三段、东三段—沙一段烃源岩的混合贡献,Ⅱ类原油主要来源于东三段—沙一段烃源岩,Ⅲ类原油主要来源于沙二+三段烃源岩。首次明确提出南堡1、2号构造带古近系+新近系原油主要为沙二+三段烃源岩的成烃贡献,沙二+三段烃源岩为南堡油田主力烃源岩之一,这对南堡油田油气资源评价和勘探方向决策具有参考意义。 相似文献
3.
借助色谱质谱仪,对黔南坳陷和黔北坳陷凯里残余油藏凯棠剖面液态石油、岩孔古油藏中的热裂解焦沥青和研究区发育的震旦系陡山沱组、下寒武统牛蹄塘组、上奥陶统五峰组和下志留统龙马溪组四套高演化烃源岩的饱和烃和芳烃馏分进行了分析研究。尽管已有研究认为凯里残余油藏和岩孔古油藏的油源岩均是下寒武统牛蹄塘组,但它们具有完全不同的三芳甾类分布与组成。如凯里残余油藏凯棠剖面的液态原油中C28三芳甾烷优势明显,其含量相当于C26+C27三芳甾烷之和的一倍,且三芳甲藻甾烷在甲基三芳甾烷中的含量极低,它与其他甲基三芳甾烷的比值介于0.02~0.05;而在岩孔古油藏的焦沥青中,C26-28三芳甾烷的相对含量呈现C27 >C28 >C26的趋势,三芳甲藻甾烷丰富,它与其他甲基三芳甾烷的比值约为0.50,即比前者高一个数量级,这与研究区四套高演化烃源岩中三芳甾类标志物的分布与组成十分相似。值得注意的是与常规甾、萜烷生物标志物一样,三芳甾类标志物的分布与组成在四套高演化烃源岩中也出现了明显的趋同现象,从而失去了其在油源研究中的实用价值。因此,在利用常规甾、萜烷和三芳甾类标志物开展油源研究时,应尽可能在成熟度相近的地质样品之间进行,且样品的成熟度应限制在生油窗范围内。 相似文献
4.
WANG Ying LIU Luofu MENG Jianghui JIANG Zhenxue GAO Yongjin LIU Shuhui 《《地质学报》英文版》2014,88(5):1556-1564
The Boxing Sag is located in the southwest of Dongying Depression, southern Bohai Bay Basin of East China. It is one of the main petroliferous sags in the Dongying Depression, and has two major source rocks, namely the upper 4th Member (Es4u) and lower 3rd Member (Es31) shales of Eocene Shahejie Formation, which are the new exploration targets in recent years. In this study, 16 core samples were collected from Es4u and Es31 shales in the Boxing Sag, and the saturate hydrocarbons were analyzed by gas chromatography (GC) and gas chromatography-mass spectrometry (GC-MS), respectively. The results show that Es4u shale has obvious phytane and gammacerane predominance, higher concentration of tricyclic terpanes and regular steranes, and very low concentration of 4- methly steranes; Es31 shale has pristane predominance, lower concentration of tricyclic terpanes, gammacerane and regular steranes, and higher concentration of 4-methly steranes. The Es4u shale can be further divided into two types based on the distribution of n-alkanes in gas chromatograms: normal distribution and double peak pattern. The biomarker characteristics and sedimentary facies distribution show that Es4u shale was deposited in the saline-hypersaline semi-deep (Type A Es4u shale, sag center) to shallow (Type B Es4u shale, sag edge) lacustrine environments, Es31 shale was deposited in the freshwater-brackish semi-deep-deep lacustrine environments, and the former sedimentary facies maps of Es4u and Es31 in the Boxing Sag are further modified. 相似文献
5.
为明确白云凹陷目前发现原油的成因及来源,系统分析取自珠江口盆地不同类型原油中各类生物标志物的分布与组成特征,发现番禺低隆起北部构造及番禺4洼的原油具有姥植比低(2.0),指示陆源有机质输入的奥利烷含量中等,基本缺乏达玛树脂贡献的双杜松烷,各类重排构型甾藿含量较低,而指示沟鞭藻贡献的C_(30)4-甲基甾烷异常丰富的特点。C_(30)4-甲基甾烷与C_(29)规则甾烷的比值2.1,且其三环萜烷系列C_(19-26)呈现以C_(21)为主峰的正态分布,指示其原始生烃母质以藻类为主,表明这类原油与文昌组湖相烃源岩具有较好的可比性;而番禺低隆起南部构造及白云凹陷的凝析油具有姥植比高(4.0),明显富含奥利烷和双杜松烷,各类重排构型甾藿烷含量较高,缺乏C_(30)4-甲基甾烷的特点,且其三环萜烷C_(19-26)呈现阶梯状依次降低的特点,表明陆源有机质是其主要原始生烃母质,这符合白云凹陷发育恩平组煤系烃源岩的石油地质背景。 相似文献
6.
为了解析东营凹陷岩性油气藏的成因与成藏机理,采用地球化学途径对岩性油气藏最为发育的牛庄洼陷的原油、不同层位烃源岩进行了详细的烃类化学成分分析与精细油源对比研究.牛庄洼陷以沙三中为主的岩性(含透镜体)及其相关油气藏原油普遍具有低Pr/Ph值(<1)、相对较高的甾烷、伽玛蜡烷丰度等沙四上亚段烃源岩的特征,与沙三中烃源岩(Pr/Ph>1)无相关性,与沙三下亚段烃源岩(Pr/Ph>1、伽玛蜡烷含量低)也有明显的非相似性.沙三中亚段的岩性及其相关油气藏油气并非以沙三中为主力烃源岩,而是表现出沙三下特别是沙四上亚段烃源岩的某些特性,暗示以往所确认的透镜体等岩性油气藏极为发育的牛庄洼陷油气成因复杂,油气成藏模式很难用传统的“自生自储”来描述.沙三中岩性油气藏中混合了相隔数百米的沙四段成因油气指示隐蔽油气运移通道的存在. 相似文献
7.
Two oil families in Ordovician reservoirs from the cratonic region of the Tarim Basin are distinguished by the distribution of regular steranes, triaromatic steroids, norcholestanes and dinosteroids. Oils with relatively lower contents of C28 regular steranes, C26 20S, C26 20R + C27 20S and C27 20R regular triaromatic steroids, dinosteranes, 24-norcholestanes and triaromatic dinosteroids originated from Middle–Upper Ordovician source rocks. In contrast, oils with abnormally high abundances of the above compounds are derived from Cambrian and Lower Ordovician source rocks. Only a few oils have previously been reported to be of Cambrian and Lower Ordovician origin, especially in the east region of the Tarim Basin. This study further reports the discovery of oil accumulations of Cambrian and Lower Ordovician origin in the Tabei and Tazhong Uplifts, which indicates a potential for further discoveries involving Cambrian and Lower Ordovician sourced oils in the Tarim Basin. Dinosteroids in petroleum and ancient sediments are generally thought to be biomarkers for dinoflagellates and 24-norcholestanes for dinoflagellates and diatoms. Therefore, the abnormally high abundance of these compounds in extracts from the organic-rich sediments in the Cambrian and Lower Ordovician and related oils in the cratonic region of the Tarim Basin suggests that phytoplankton algae related to dinoflagellates have appeared and might have flourished in the Tarim Basin during the Cambrian Period. Steroids with less common structural configurations are underutilized and can expand understanding of the early development history of organisms, as well as define petroleum systems. 相似文献
8.
Fan Shanfa Wang Benshan Shi Jiyang Zhang Lijie Hong Ziqing Lü Guoying Lin Huayuan Xu Weimin Xia Yan 《中国地球化学学报》1987,6(1):53-64
A series of biomarkers is used to explore the bio-inputs of source rocks and oils. Oils from the Dongtai sag of the Subei Basirr are characterized by abundant gammacerane and 4-methyl steranes. Both Ef4 and Ef2 source shales contain type-II1 kerogen. Ef4 is different from Ef2 in biomarker distribution and generated oil. The former has higher Pr/Ph and 4-methyl sterane/sterane ratios, but the latter has more abundant β-carotane. The presence of immature oils and source rocks in the Hai’an depression indicates that the immature oils are of commercial value. 相似文献
9.
S. Aboglila K. Grice K. Trinajstic C. Snape K.H. Williford 《Applied Geochemistry》2011,26(9-10):1694-1705
The present paper involves a detailed evaluation of specific steroid biomarkers by gas chromatography–mass spectrometry (GC–MS) and GC-metastable reaction monitoring (MRM) analyses of several crude oils and source rocks from the East Sirte Basin. 24-Norcholestanes, dinosteranes, 4α-methyl-24-ethylcholestanes and triaromatic steroids have been identified in both source-rocks and crude oils of the East Sirte Basin. Diatoms, dinoflagellates (including those potentially associated with corals) and/or their direct ancestors are amongst the proposed sources of these biomarkers. These biomarker parameters have been used to establish a Mesozoic oil–source correlation of the East Sirte Basin. Hydropyrolysis of an extant coral extract revealed a similar distribution (although immature) of dinosteranes and 4α-methyl-24-ethylcholestanes also observed in the Sirte oils and source-rocks. This is consistent with the presence of dinoflagellates present during the deposition of the Mesozoic aged East Sirte Basin Formations.A good data correlation for the rock extracts revealed a similar distribution of 3,24-dimethyl triaromatic steroids, 3-methyl-24-ethylcholestanes, 4-methyl-24-ethylcholestanes and 2-methyl-24-ethylcholestanes observed in one of the oil families and associated source-rocks for the East Sirte Basin. 相似文献
10.
藏北羌塘盆地晚侏罗世海相油页岩生物标志物特征、沉积环境分析及意义 总被引:5,自引:1,他引:5
胜利河油页岩位于青藏高原腹地的羌塘盆地,具单层厚度薄、区域延伸长的特点,为羌塘盆地新发现的又一处海相油页岩.采用GC-MS(IRMS)分析方法对该油页岩进行了研究,结果表明,胜利河油页岩(11层以及13层)含有丰富的正烷烃、类异戊二烯烃、萜类化合物和甾类化合物.正构烷烃呈前高后低的单峰型分布,nC15、nC16为主峰碳,轻烃组分占有绝对优势,OEP值0.96~0.97,接近平衡值1.00,Pr/Ph为0.57~0.75,显示弱的植烷优势;萜烷丰度顺序为五环三萜烷》三环萜烷》四环萜烷;规则甾烷呈不对称的"V"字型分布,表现为C27》C29》C28的分布特征.这些特征与剖面中其他岩性的生物标志物特征存在一定的差异,9层泥晶灰岩C21-/C21 值为0.86,轻烃优势并不明显;14层泥灰岩C21-/C21 值为0.41,具有明显的重碳优势;9层泥晶灰岩以及12层泥灰岩规则甾烷呈C29》C27》C28的特征也与油页岩层存在显著的差异.这些差异不仅反映了油页岩层与其他岩性间生物母源输入的差异,也反映了他们之间沉积环境的不同.胜利河地区油页岩的形成是综合因素控制的结果,古地理变化、海平面升降、生物群差异以及气候的变化均对该区油页岩的形成有一定的影响. 相似文献
11.
Jochen J. Brocks 《Geochimica et cosmochimica acta》2011,75(11):3196-3213
Archean shales from the Pilbara in Western Australia contain biomarkers that have been interpreted as evidence for the existence of cyanobacteria and eukaryotes 2.7 billion years (Ga) ago, with far reaching implications for the evolution of Earth’s early biosphere. To re-evaluate the provenance of the biomarkers, this study determined the spatial distribution of hydrocarbons in the original drill core material. Rock samples were cut into millimeter-thick slices, and the molecular content of each slice was analyzed. In core from the Hamersley Group (∼2.5 Ga), C<13 alkanes had gradually increasing concentrations from the surfaces to the center of the rock while the abundance of steranes, hopanes and C15+ alkanes decreased with distance from the outer surfaces. In samples from the Fortescue Group (∼2.7 Ga), hydrocarbons were overwhelmingly concentrated on rock surfaces.Two mechanisms are proposed that may have caused the inhomogeneous distribution: diffusion of petroleum products into the rock (contamination model), and leaching of indigenous hydrocarbons out of host shales driven by pressure release after drilling (‘live-oil’ effect). To test these models, the hydrocarbon distributions in the Archean shales are compared with artificially contaminated rocks as well as younger mudstones where leaching of live-oil had been observed.The results show that chromatographic phenomena associated with live-oil escape and contaminant diffusion have strong effects on molecular ratios and maturity parameters, potentially with broad implications for oil-source rock correlation studies and paleoenvironmental interpretations.For the Archean shales, the live-oil effect is consistent with some of the observed patterns, but only the contamination model fully explains the complex chromatographic fingerprints. Therefore, the biomarkers in the Pilbara samples have an anthropogenic origin, and previous conclusions about the origin of eukaryotes and oxygenic photosynthesis based on these samples are not valid.However, the study also identified indigenous molecules. The spatial distribution of particular aromatic hydrocarbons suggests they are syngenetic. Although devoid of biological information, these aromatics now represent the oldest known clearly-indigenous terrestrial liquid hydrocarbons. 相似文献
12.
基于40余个不同岩性烃源岩及原油饱和烃组分的GC/MS和GC/MS/MS分析资料,揭示了琼东南盆地崖城地区渐新统不同沉积相带烃源岩的生物标志物组合特征,并与崖城油气田原油进行油源精细对比,提出了新的认识。研究结果表明,海岸平原沼泽相煤及碳质泥岩呈姥鲛烷优势(Pr/Ph>5.0),三环萜烷以低碳数化合物为主(C19/C23>3.0),甾烷丰度低(藿烷/甾烷>5.0), C29甾烷优势显著(>60%),指示高等植物为主要的有机源,且沉积于氧化环境。浅海相泥岩中Pr/Ph值大多在1.0~2.5,表征弱还原-弱氧化环境;其三环萜烷以C21或C23为主峰,甾烷呈"V"字型分布,藿烷/甾烷比值小于3.0,具陆源和水生双重有机质生源。煤及碳质泥岩中奥利烷和双杜松烷等陆源标志物均较少,而泥岩中却普遍富含这些化合物,反映了近岸海相沉积有机质的特殊性。因而,在近海盆地地层中奥利烷和双杜松烷丰度并不能代表总体有机质中陆源的输入比例,更可能是指相标志。通过与烃源岩的分子地球化学对比表明,崖城油气田的主体原油兼具煤成烃和泥岩所生油的生物标志物组成,为混源油,来自渐新统不同沉积相带烃源岩。 相似文献
13.
LD湾JZ25-1地区沙河街组二段、三段原油,具有低硫、中高含蜡、凝析油~轻质油的特点。原油未受到生物降解作用的影响,正构烷烃有微弱奇偶优势。原油的甾萜烷特征表现出中等伽马蜡烷丰度、4-甲基甾烷含量高,甲藻甾烷丰富,规则甾烷C27、C28、C295α(H)、14α(H)、17α(H)指纹呈不对称的"V"型分布特点,甾烷异构化参数表明原油为成熟原油。原油主要来源于淡水~微咸水的还原环境,富沟鞭藻以水生生物为主混合型输入的有机相。JZ25-1地区沙河街组二段及三段,正常原油与LX凹陷沙三段有很好亲缘关系,其主要来源LX凹陷沙河街组三段烃源岩,也有少量来自沙河街组一段。沙河街组二段凝析油主要为LX凹陷沙河街组一段烃源岩产生的低熟凝析油,也有少量来源于LX凹陷沙河街组三段烃源岩。 相似文献
14.
在分析东营凹陷缓坡带孔店组多个原油样品的类异戊二烯烷烃、甾类化合物、萜类化合物和碳同位素构成的基础上,揭示了孔店组原油的典型地球化学特征。孔店组原油甾类化合物主要由规则甾烷构成,异构化程度较低,明显富有C29规则甾烷;三环萜烷相对含量高,三环萜烷/五环萜烷分布范围为0.15~0.53;碳同位素组成偏轻,δ13C值普遍小于-29‰。由于孔店组原油与研究区已认定的Esx3亚段、Ess4亚段和Ek2亚段三套生油岩都缺少成因联系,该区可能存在一套尚未落实的生油岩。依据原油的典型生物标志化合物构成特征推断,孔店组原油应来自下第三系深层一套贫粘土矿物且富含化学盐岩的生油岩层。 相似文献
15.
东营凹陷南斜坡沙四下亚段—孔店组原油地球化学特征及成因分类 总被引:2,自引:0,他引:2
东营凹陷南斜坡沙四下亚段—孔店组为一套紫红色或红色碎屑岩沉积,本身不具备生烃能力,因此对该层段原油成因的研究具有重要意义。在系统分析17个油砂和5个原油样品的生物标志物组合特征的基础上,将该区原油划分为4种成因类型。Ⅰ类原油分布于平方王地区和博兴洼陷,Pr/Ph0.8,Ph/nC180.6,伽马蜡烷含量极低,4-甲基甾烷、重排甾烷含量相对高,Ts/Tm、藿烷/甾烷值相对高,可能来源于一套淡水湖相环境下形成的、富含粘土矿物的泥岩。Ⅱ类原油分布于纯化—乐安构造带、陈官庄构造带,Pr/Ph0.6,Ph/nC182,伽马蜡烷含量高,4-甲基甾烷、重排甾烷含量低,Ts/Tm和藿烷/甾烷值低,可能与一套盐湖相泥岩或灰质泥岩有成因关系。Ⅲ类原油分布于青城北缓坡构造带,检测出25-降藿烷系列,伽马蜡烷含量介于Ⅰ类和Ⅱ类之间,可能为早期充注的Ⅱ类原油遭受生物降解后和晚期充注的Ⅰ类原油形成的混源油,且以晚期充注为主。Ⅳ类原油分布于王家岗地区孔店组,具有C29甾烷绝对优势和高含量的伽马蜡烷,推断为Ⅱ类原油和一种来源于浅湖—沼泽相的原油形成的混源油。 相似文献
16.
新疆西北部和什托洛盖盆地侏罗系低熟煤系烃源岩地球化学特征及生烃条件分析 总被引:5,自引:0,他引:5
新疆西北部和什托洛盖盆地勘探程度较低,侏罗系煤系烃源岩较为发育,选取了和什托洛盖盆地和布克河凹陷与白杨河凹陷的四条侏罗系野外地质剖面,对侏罗系烃源岩进行了系统的地球化学实验室分析测试,确定了该盆地生烃潜力。研究表明,侏罗系八道湾组、三工河组以及西山窑组煤系烃源岩有机碳含量、氯仿沥青“A”、总烃以及生烃潜力值均达到中等—好的烃源岩有机质丰度标准。煤系烃源岩有机质显微组分镜质体较为富集,壳质组相对含量达到20%,为孢子体、角质体、树脂体以及木栓质体,泥岩富集部分藻类体,荧光特征较强,惰质体不发育,母质类型为Ⅱ2型,部分为Ⅲ型,煤为Ⅲ型,煤中氯仿沥青“A”与族组分同位素偏重,暗色泥岩略低,煤系烃源岩族组分非烃的同位素值均明显偏轻,芳烃同位素略重,受控于煤系烃源岩中多环芳烃较为发育,更为富集δ13C,非烃组分N、S、O化合物富集δ12C。实测Ro值较低,烃源岩成熟度偏低,但盆地模拟结果表明研究区凹陷中心区源岩已进入生烃门限。研究区低熟煤系烃源岩分子标志化合物也存在其特殊性,正构烷烃以高碳数的分布为主,煤的Pr/Ph值明显高于泥岩,无β 胡萝卜烷、孕甾烷与升孕甾烷分布、伽玛蜡烷指数低,表明侏罗系煤以湖沼相的氧化环境为主,而西山窑组泥岩主要以弱氧化环境沉积特征为主,另外萜烷系列化合物几乎无倍半萜、二环倍半萜以及三环萜烷的分布,藿烷系列存在ββ生物构型分布,为热演化程度较低的标志,分子标志化合物参数的相关性表明,弱氧化的湖沼相的沉积水体有利于此类化合物的分布,煤抽提物中规则甾烷C27、C28、C29呈反“L”型分布,主要以高等植物的陆源输入为主,而侏罗系泥岩存在“V”型分布,有低等水生藻类的贡献,与富氢组分中存在藻类体有较好的的匹配关系,具有更有利的生烃条件。 相似文献
17.
18.
黔南坳陷下寒武统烃源岩地球化学特征及成因 总被引:2,自引:0,他引:2
为明确黔南坳陷下寒武统烃源岩地球化学特征及成因,采用岩石热解、GC、GC-MS等方法对3个典型剖面样品进行了系统分析。结果表明:黔南坳陷下寒武统黑色岩系为一套区域性海相优质烃源岩,厚约50~150 m;烃源岩TOC值为0.13%~15.40%,平均3.31%(n=169);烃源岩干酪根δ13C值为-35.79‰~-29.88‰,平均-32.85‰(n=35),显微组分主要为腐泥组;烃源岩干酪根海相镜质体反射率值为1.95%~3.96%,其等效镜质体反射率值为2.02%~3.47%;烃源岩饱和烃正构烷烃分布多为单峰形,主峰碳多为C22,C30藿烷和C27规则甾烷含量高,规则甾烷多为C27>C29>C28,Pr/Ph值为0.27~0.62,具较高的伽马蜡烷和硫芴含量,OEP值为0.82~1.11,C31升藿烷22S/(22S+22R)值为0.56~0.63,平均0.59;烃源岩总体具有富集轻稀土元素,Ba、Mo、V、U等元素含量高,具较强Ce负异常、Eu正异常和较高U/Th值等特征。总之,黔南坳陷下寒武统海相烃源岩分布广,厚度较大,有机质丰度高,类型好,热演化程度高,是高古生产力和缺氧环境共同作用的产物,可为黔南坳陷油气生成提供雄厚的成烃物质。 相似文献
19.
江汉盐湖盆地中高成熟原油的地球化学特征及油源探讨 总被引:2,自引:0,他引:2
江汉盐湖盆地中钟76井潜江组潜四段3300m以下发现的高成熟轻质原油,其基本特征是:饱和烃含量特高,非烃和沥青质含量很低;富含植烷、伽马蜡烷、C35升藿烷、孕甾烷和C27胆甾烷等指示高盐度、强还原环境的生物标志物。尤其明显的是C27-C29甾烷异构化程度高,αββ20R和20S峰十分突出,C29甾烷的两个参数值均大于等于0.5,指示了原油的成熟度已处于高成熟阶段。根据油源条件分析,认为该地区潜江组潜一段至潜四上段烃源岩埋深浅于3000m,P值小于1%,处于未成熟-成熟阶段,不具有形成高成熟原油的可能性,只有潜四下段烃源岩已进入生烃高峰高成熟早期阶段,能够提供轻质原油的油源。生物标志物多项地球化学资料及参数综合对比表明,本区两种成因类型的高成熟原油,其油源确系来自潜四下段两种不同沉积环境形成的泥质灰岩和灰质泥岩,明显具有近源运移聚集、自生、自储的特征,这展示了该地区潜四下段及其下覆的古潜山深层油气勘探有着良好的前景。 相似文献
20.
塔中隆起原油特征与成因类型 总被引:21,自引:2,他引:19
塔里木盆地塔中隆起油气性质多样、分布与成因复杂, 为揭示油气的特征与成因, 对塔中及外围104个原油样品进行了精细地球化学研究.依据单体烃碳同位素、特征生物标志物分析, 将塔中原油分为4种类型: (1) 寒武系成因原油, 具有较重正构烷烃单体烃碳同位素(-29.6‰~-29.1‰)、甲藻甾烷较发育及C27、C28、C29规则甾烷呈反“L”型或线型分布等特征; (2) 中、上奥陶统成因原油, 具有较轻的正构烷烃单体烃同位素(-34‰~-35.6‰)、甲藻甾烷等不太发育与C27、C28、C29规则甾烷呈“V”型分布等特征; (3) 富含含硫芳烃-二苯并噻吩原油, 主要分布于塔中4井区; (4) 混源油, 单体烃碳同位素特征界于Ⅰ、Ⅱ类原油之间, 是塔中最为主要的原油类型.油-油对比与油气性质分析表明, 塔中地区至少有两套主力烃源岩供烃.塔中部分原油生物标志物显示寒武系-下奥陶统成因特征, 而单体烃碳同位素却与中上奥陶统成因原油更为接近, 这种不同馏分的不一致现象系不同成因原油混源的结果, 反映单一应用生物标志物指标有其局限性.塔中油气性质具有分带、分块、分层特征, 反映叠合盆地多源、多期成藏、储层非均质性等多种特性. 相似文献