共查询到20条相似文献,搜索用时 78 毫秒
1.
喜山期的干气对塔里木盆地塔中Ⅰ号坡折带古油藏气侵作用是导致油气分馏形成凝析气藏的重要原因,前人关于塔中地区气侵的研究多为定性描述,而定量化的研究较少。以处于塔中Ⅰ号坡折带内带的塔中83井区为研究对象,剖析研究区的成藏地质条件,总结其油气性质、组分特征,进而开展原油样品正构烷烃定量测试,计算研究区不同油气藏的原油正构烷烃损失率Q,对其气侵强度进行了定量化评价。正构烷烃损失率Q的计算结果表明,研究区油气藏都遭受了不同程度气侵(Q变化范围为12%~86%),气侵强度在平面上表现出由北西向南东逐渐减小,剖面上由下向上逐渐变小,同时,气侵导致油气性质改变,原油中的低碳数正构烷烃溶于气相,脱离油相形成与凝析油伴生的高含腊量原油,证实了沿塔中82走滑断裂和塔中Ⅰ号断裂交汇部位充注的高—过成熟度干气对研究区油气藏的气侵作用,为该区油气成藏研究提供了定量证据。 相似文献
2.
强烈气洗作用导致原油成分变化的定量计算:以库车坳陷天然气藏为例 总被引:1,自引:0,他引:1
库车坳陷以产天然气为主,同时产出少量原油和凝析油,油气充注不同步,普遍具有"油早气晚"的特点,晚期大量天然气的侵入,必然对早期聚集的油藏发生改造作用。对气藏中原油成分变化的定量计算和讨论,可为天然气的注入强度定量评价提供直接证据。未遭受气洗的原油,正构烷烃摩尔浓度的对数与相应的碳数呈线性关系,而气洗作用可使轻组分的正构烷烃最先溶解于干气中,并随着天然气继续向前运移,原始油藏中的轻组分正构烷烃大大减少。以此为理论基础,建立了正构烷烃损失的定量计算模型。结果表明克拉2构造原油正构烷烃损失程度最高,平均可达70%左右,大北构造带原油正构烷烃损失程度差异较大,与该地区断块发育有关。气洗作用导致原油正构烷烃减少,而金刚烷、多环芳烃等在天然气中溶解度较低的化合物得以浓缩富集,相对含量大大增加。轻芳烃含量也会随之而增加,原油芳香度增加,石蜡度降低。在模拟实验基础上对气洗程度进行了定量评价,初步估算表明,克拉2构造原油遭受的气洗作用最强,是其他构造带的2~5倍。 相似文献
3.
顺北地区4号断裂带奥陶系油气藏相态复杂,自NE向SW,油气藏相态的变化情况是挥发油藏—低气油比凝析气藏—高气油比凝析气藏—中等气油比凝析气藏。使用地球化学分析方法研究了顺北4号断裂带油气藏的地球化学特征,分析了相态差异性的成因。4号断裂带原油生标含量低甚至缺失,原油生源与1号断裂带原油生源相同。4号断裂带原油成熟度高于1号断裂带原油,等效反射率为1.14%~1.60%。4号断裂带天然气干燥系数由NE向SW方向渐进增大,天然气成熟度为1.30%~1.70%。天然气中H2S、CO2含量由NE向SW方向呈现增加的趋势。全油色谱正构烷烃摩尔分数对数与正构烷烃碳数的关系表明,4号断裂带原油未遭受蒸发分馏作用;4号带原油金刚烷含量分布范围为27.26~523.31μg/g,原油裂解作用程度为20.5%~95.8%,裂解程度较1号断裂带原油裂解作用高;SB4、SB41X-C和SB42X井原油硫代金刚烷含量为33.76~76.92μg/g,表明这些油气藏发生了硫酸盐热化学还原(TSR)作用。顺北4号断裂带奥陶系油气藏相态变化与两个因素有关:一是4号断裂带地温... 相似文献
4.
轮南地区油气相态分布非常复杂,奥陶系油气藏平面上具有西油东气的特点。西部轮古西油田、塔河油田和轮南1井区油族成熟度略低且有生物降解痕迹,主要以重油形式分布;东部地区油族成熟度略高,主要以轻质油、凝析油形式存在;中间地段桑塔木断垒带、中部平台区和轮南断垒带发生混合作用形成了中一高蜡油。各地区油气在垂向上变化很大,东部地区奥陶系和石炭系为凝析油气,三叠系又为正常油分布区;西部地区奥陶系为稠油,三叠系为正常油。轮南地区奥陶系在纵向上可能受控于岩溶和储层的发育程度,横向上受控于断裂作用。轮南地区油气成藏时间较早,不同物性的原油都是古油藏多期供油的结果。 相似文献
5.
塔里木盆地塔中地区原油性质的多样性和复杂性十分罕见;分析表明,成熟作用和源岩相很可能是原油多样性的次要因素,主要影响因素可能与多期成藏或成藏后储层内的次生蚀变作用有关。本文对照正构烷烃摩尔浓度分布图版,辨别了塔中地区不同构造单元原油正构烷烃摩尔浓度的分布类型,分析了原油遭受次生蚀变作用的程度,以及蒸发分馏作用、气洗作用发生的原因及其对原油物性的影响。结果表明,由于运移通道以及与油气源的距离等因素,从塔中Ⅰ号断裂坡折带至中央断垒带,蒸发分馏作用和气洗作用发生的频率逐渐降低,但基态原油分布频率有增高的趋势。并且Ⅰ号断裂坡折带部分凝析油、高蜡油的形成主要与上述蒸发分馏、气洗、晶析等储层内的次生蚀变作用有关。 相似文献
6.
针对塔里木盆地塔河南奥陶系多相态油气藏成因模式认识不清的问题,采用油藏地球化学、构造解析及地球物理等方法,查明奥陶系油藏流体具有“四低一高”特征,且干气与湿气并存,发育凝析气藏、挥发油气藏、轻质油藏3种相态,平面上呈现“东气西油”的分布格局.奥陶系原油成熟度正常,未经历大规模裂解及TSR作用,但玉科地区遭受了较为强烈的蒸发分馏作用,晚期高熟油裂解气的充注改造是凝析气藏形成的重要原因.塔河南主体区奥陶系轻质油藏具有“早期成藏、垂向运聚、侧向调整、分段富集”的特点,玉科地区奥陶系凝析气藏具有“多源供烃、早油晚气、垂向充注、侧向运聚”的特点.综合认为:南部坳陷区域走滑断裂带内部可能仍具有巨大的石油资源. 相似文献
7.
《地球化学》2015,(6)
对辽河盆地中央凸起南部潜山原油进行了好氧生物降解模拟实验,分析了辽河原油在轻度至中度(PM 1~4级)的好氧生物降解过程中化学组分的变化,以及在此过程中原油族组分和正构烷烃单体的稳定碳同位素值的变化。结果显示,饱和烃组分的消耗速率最快,正构烷烃的消耗速率高于异构烷烃,低碳数正构烷烃的消耗速率高于高碳数正构烷烃。正构烷烃的疏水性及其在原油中的相对浓度可能是影响微生物选择性地消耗正构烷烃的主导因素,即低碳数的正构烷烃由于在油水界面上的表面张力较小而更容易被微生物降解。正构烷烃单体(C_(14)~C_(30))稳定碳同位素值在生物降解过程中较稳定,未产生明显的碳同位素分馏效应。正构烷烃的好氧降解产物主要是脂肪酸、醇和CO_2。辽河原油中正构烷烃组分的δ~(13)C值较饱和烃、芳烃、胶质和沥青质组分都要偏重,降解产物中水溶性较低的高碳数脂肪酸和醇大部分进入胶质中,少部分通过氢键缔合和形成酯键等方式进入到沥青质组分中,造成沥青质组分的δ~(13)C值发生相应的变化,即对沥青质的δ~(13)C值产生"拉动效应";而降解产物中高水溶性的低碳数烷基酸和醇会进入水相而脱离原油,导致残余油的整体δ~(13)C值相应变轻。因此,假如易受生物降解的烃类如正构烷烃等的δ~(13)C值与原油的δ~(13)C值差别比较大,那么生物降解过程中随着原油化学组成的改变,原油本身及其族组分的δ~(13)C值均可能发生明显的变化。 相似文献
8.
库车坳陷牙哈地区次生凝析气藏的成因差异 总被引:1,自引:0,他引:1
《地质科技情报》2015,(4)
牙哈地区位于塔里木盆地北部海相含油气系统与陆相含油气系统过渡带,多期油气充注过程导致区内凝析气藏广泛发育。地球化学研究表明,牙哈地区凝析油的折算Ro在0.7%附近(远低于原生凝析油Ro=1.3%的热力学门限),反映出次生凝析气藏的特征;同时,牙哈地区原油轻质组分相对损失的特征,表明其发育典型的相分馏效应,即相分馏作用控制了其凝析气藏的形成。流体相态特征表明,牙哈地区凝析气藏分为两类:一类为饱和型凝析气藏,此类凝析气藏的地露压差较小,具油环,主要分布于YH7井;另一类为不饱和凝析气藏,此类凝析气藏的地露压差较大,在地下为纯气态,不具油环,主要分布于YH3以及YH6井区。其成藏过程受控于差异充注过程,即早期少量原油仅对于YH1、YH5等井区发生了充注,原油充注并未达到YH3井区;晚期大量干气对YH1、YH7井区的油藏发生持续侵入,而承载了大量轻质组分的天然气运移至较浅的YH3井区发生聚集,由于温压降低,转变为不饱和凝析气藏。 相似文献
9.
10.
气洗作用对油气组分影响的理论探讨 总被引:4,自引:1,他引:3
用PR状态方程定量计算和分析了部分常用地球化学参数随气洗次数的变化规律及这些参数与气洗方式之间的关系;定义了相对溶解度(α)和残留能力(h)的概念;推导出了凝析油和残留油中化合物含量比值与α、h之间的理论关系.从理论上证明,同一次气洗形成的凝析油中正构组分含量比值nCm/nCm 1必然大于残留油中nCm/nCm 1;同一油藏早期气洗凝析油中比晚期气洗凝析油中含有更丰富的轻质组分.并且给出了不同期次气洗凝析油中组分的变化规律.最后,用理论研究的结果探讨了松辽盆地古龙凹陷古31井Hl气层中凝析油的成因. 相似文献
11.
Re-Examination of the Oil and Gas Origins in the Kekeya Gas Condensate Field, Northwest China–A Case Study of Hydrocarbon-Source Correlation Using Sophisticated Geochemical Methods 
下载免费PDF全文
下载免费PDF全文 This work discussed the origins, alteration and accumulation processes of the oil and gas in the Kekeya gas condensate field based on molecular compositions, stable carbon isotopes, light hydrocarbons, diamondoid hydrocarbons and biomarker fingerprints. A comparison study is also made between the geochemical characteristics of the Kekeya hydrocarbons and typical marine and terrigenous hydrocarbons of the Tarim Basin. Natural gas from the Kekeya gas condensate field is derived from Middle–Lower Jurassic coal measures while the condensates are derived from Carboniferous–Permian marine source rocks with a higher maturity. In the study area, both natural gas and condensates have experienced severe water washing. A large amount of methane was dissolved into the water, resulting in a decrease in the dryness coefficient. Water washing also makes the carbon isotopic compositions of the natural gas more negative and partially reverse. Considering that the gas maturities are higher than once expected, gas generation intensity in the study area should be much stronger and the gas related to the Jurassic coal measures could promise a greater prospecting potential. As a result of evaporative fractionation, the Kekeya condensates are enriched in saturates and lack aromatics. Evaporative fractionation disguises the original terrigenous characteristics of the light hydrocarbons associated with the natural gas, making it appear marinesourced. Thus, alteration processes should be fully taken into consideration when gas–source correlations are carried out based on light hydrocarbons. With the condensates discovered in the study area all being "migration phase", the pre-salt Cretaceous and Jurassic reservoirs may promise great exploration potential for the "residual phase" hydrocarbons. This research not only is of significance for oil and gas exploration in the southwest Tarim Basin, but also sheds light on the oil/gas-source correlations in general. 相似文献
12.
The effects of phase fractionation on the composition of oils, condensates and gases 总被引:1,自引:0,他引:1
The effects of phase fractionation on the composition of oils, condensates and gases have been studied in the laboratory by a differential evaporation experiment. The experiment was designed to simulate the behaviour of a single-charge petroleum during (upward) migration or in a reservoir undergoing uplift, scenarios thought to be typical for the Norwegian continental shelf. After each pressure reduction step, samples from all phases (oil, condensate, free and associated gas) were collected and analysed. The results show that, in general, small molecules are preferentially enriched in the gas phase, both at elevated pressure and temperature and under standard conditions (15°C, 1 bar). The solvent power of the gas phase for large molecules is drastically reduced at lower pressures (here below approx. 300 bar). Carbon isotope ratios of individual compound are not affected, while variations in isotope ratios of fractions can be explained by changes in the fraction compositions. Individual geochemical parameters behave as can be expected based on the molecular size and structure of the compounds involved. However, a generally valid, quantitative prediction of how geochemical parameters vary as a result of phase fractionation is very difficult, as this will depend not only on the pressure and temperature of fractionation, but also on the composition and amounts of the oil and gas that are involved. The observations from this study confirm the importance of phase fractionation as an important process to consider when interpreting geochemical data for both condensates and oils. 相似文献
13.
高蜡凝析油或轻质油的分布特征与成因机理 总被引:2,自引:2,他引:2
介绍了中国部分含油气盆地中的高蜡凝析油或轻质油的地球化学特征及其在地域上和层位上的分布规律,并以大港千米桥古潜山高蜡凝析油气藏、吐哈盆地西部凹陷部分高蜡凝析油田或轻质油田、塔里木盆地柯克亚凝析油气田、盐城凹陷的高蜡凝析油藏为例,总结了几种高蜡凝析油或轻质油的成因模式,即煤系腐殖型烃源岩热演化生烃、运移分馏作用、混合作用或"气洗作用"等. 相似文献
14.
Phase—Controlled and Gas—Washing Fractionations During the Formation of Petroleum Reservoirs 总被引:1,自引:0,他引:1
By PVT fractionation experiments to model phase-controlled and gaw-washing fractionations during the formation of petroleum reservoirs,the authors measured the physical and chemical properties of products formed in different fractionation staes and made a correlative analysis of the influence of depressurization and gas washing on oil/gas molecular composition and the rule of fractionation.The analytical results showed that gas washing is an important factor affecting the physical properties of crude oils.and also can be regarded as a good genetic interpretation of marine wax-high oils in the Tarim region,Xinjiang,China.Phase-controlled and gaw-washing fractionations can lead to the formation of condensates and their differences in chemical composition from crude oils are a direct reflection of evaporating fractionation.Phasecontrolled and gaw-washing fractionations have a great influence on the composition of molecular compounds and relevant parameters.So phase-controlled and gas-washing fractionations during the formation of petroleum reservoirs are not only favorable to identifying different processes of formation of petroleum reservoirs,but also to the scientific application of routine geochemical parameters. 相似文献
15.
2018年中国东部最大整装凝析气田——渤中19-6气田的发现,一举打开了渤海湾盆地深层天然气勘探的新领域,展现了油型盆地天然气勘探的巨大潜力。渤中凹陷发育多套不同成熟度的烃源岩,位于渤中凹陷西南部的渤中19-6气田凝析油与天然气并存,近年来于该地区的天然气成因及形成条件多有研究,但是对于凝析油的形成则少有研究。本文以渤中19-6气田为例,探讨多套烃源岩发育的复杂油气区凝析油的成因及与天然气的关系。渤中19-6气田6个凝析油样品化学组成及其变化特征精细分析对比表明:该区凝析油以低碳数正构烷烃为主,含有较丰富的环己烷、甲基环己烷等环烷烃和苯、甲苯等低碳数芳烃,金刚烷类化合物较发育,高碳数生物标志化合物含量较低,综合判断凝析油属于混合偏腐殖型高熟原油。结合该区凝析油与天然气对比结果认为,该区凝析油和天然气属于同一套烃源岩在同一阶段所生成的烃类化合物,两者相伴而生,均属于烃源岩原生产物。 相似文献
16.
Based on experimental and observational evidence, a mode of origin involving evaporative fractionation is proposed for a class of petroleums enriched in light aromatic and naphthenic hydrocarbons (benzene, toluene, meta-xylene, para-xylene, methylcyclopentane, cyclohexane, and methylcyclohexane). Progressive gas loss from gas-saturated oil is suggested as the causal mechanism, with simultaneous loss of light ends in gaseous solution, and accompanying fractionation. These processes were simulated experimentally.Residual oils exhibit the following changes in their remaining light hydrocarbons, <C9: (1) increase in aromaticity (in aromatic hydrocarbons relative to normal alkanes of molecular weight); (2) increase in “normality” (in unbranched alkanes and naphthenes relative to branched isomers), and (3) decrease in paraffinicity (in paraffins relative to naphthenes). Retrogressive changes in maturity indicators take place leading to spurious evidence of immaturity in residual oils and the derived evaporative condensates.The phenomena occur in many basins, and are a key to understanding major aspects of petroleum variability. On the basis of aromaticity and paraffinicity relationships, evaporative gas-condensates are distinguishable from those generated by thermal cracking. Unfractionated thermal gas-condensates are rare. Evaporative condensates are the daughter products of oils which have suffered evaporative fractionation. 相似文献
17.
我国凝析油的成因类型及其地球化学特征和意义 总被引:5,自引:1,他引:5
近十几年的勘探实际表明,在我国一些含油气盆地中,许多天然气藏均伴生一定量的凝析油(或轻质油)。按母质类型可将凝析油分为海相腐泥型有机质生成的凝析油、煤系地层腐殖质有机质生成的凝析油、陆相混合型有机质生成的凝析油。本文较详细地从成因机理上讨论了这三种不同成因凝析油的形成特点。海相腐泥型有机质一般在有机质热演化达到高成熟-过成熟阶段,由干酪根或早期形成的高分子液态烃热裂解才形成凝析油。煤系地层中腐殖型有机质从低成熟到过成熟各个阶段所生成的一定量的液态烃一般主要以凝析油的状态与天然气相伴生。陆相混合型有机质从低成熟到过成熟阶段也都可能形成凝析油。利用凝析油单体烃的组份特征,石蜡指数和庚烷值对我国主要含油气盆地凝析油的成熟度进行了计算,所得结果,大都与地质实际相吻合。研究表明我国凝析油成熟度的分布范围从低成熟到过成熟均有。三种不同成因的凝析油其地球化学特征具有一定差异,煤系地层腐殖型有机质形成的凝析油从组份来讲相对富含芳烃,其芳烃含量一般为16.2~23.5%,饱和烃/芳烃值为3.2~5.2,同时其姥鲛烷/植烷值相对较高,通常均大于3;而海相腐泥型有机质生成的凝析油则相对富含饱和烃,其饱/芳比值为11.8~18.2,同时姥蛟烷/植烷值较低,一般小于1。陆相混合型有机质生成的凝析油则介于二者之间。三类不同成因的凝析油它们的芳烃组份(蔡系、联苯系和药系)和低分子生物标记物(菇类化合物)以及烷烃和芳烃组份的碳同位素组成都具有明显的差异。利用凝析油的这些地球化学特征可以有效地判识凝析油的成熟度和成因类型,从而确定与之相伴生的天然气的成因或来源。 相似文献
18.
青海柴达木盆地南八仙油气田油源与成藏机理 总被引:12,自引:1,他引:11
柴达木盆地南八仙油气田不同油气藏间原油性质特征变化明显,油层在纵向井段上分布范围逾3000余m。通过地球化学实验并结合构造等地质条件分析,认为该区各种深、浅层油气藏中的原油具有煤成烃的基本地球化学特征,并且为同一来源,油源为临近地区较深部位中侏罗统煤系地层;该区深、浅层原油物性间的差异也反映在地球化学指标上,其成因或成藏机理是:深部早期油藏在断裂等地质作用下发生了明显的蒸发分馏作用,其分馏出的产物在浅部再次聚集成藏。 相似文献
19.
20.
渤海湾盆地渤中19-6凝析气田凝析油以高含蜡为特征,综合前人研究成果和油气地球化学资料对渤中19-6凝析气田高蜡凝析油特征和成因进行了分析。结果表明,研究区凝析油具有低密度、低黏度、低沥青质和胶质、高蜡和高凝固点的物性特征,其低碳数与中—高碳数正构烷烃含量相当,C1-8轻烃组分以正构烷烃和环烷烃为主,C27、C28和C29规则甾烷呈“L”字型分布,C304-甲基甾烷含量较高、伽马蜡烷含量中等—低,3+4—甲基双金刚烷含量较低,主要为沙河街组三段烃源岩成熟阶段的产物。高蜡凝析油的形成主要受控于烃源岩母质类型和相控混溶的凝析气形成机制。研究区烃源岩有机显微组分以腐泥无定形体和腐殖无定形体为主,为高蜡凝析油的形成提供了充足的物质基础。相控混溶的凝析气成因机制为高蜡凝析油的形成与保存创造了良好的外部条件。 相似文献