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本文对含有Ⅰ类干酪根的扶16-02井(埋深355.9m)的未成熟生油岩样品进行了一系列人工熟化,得到了具有不同成熟度的样品。对这些熟化样品,用Ⅱ型岩石评价仪(Rock-EvalⅡ)进行了热解常规分析,用Ⅰ型岩石评价仪(Rock-EvalⅠ)进行了热解模拟实验,并用热解气相色谱仪进行了热解产物组成分析。对于热解模拟实验数据,按串联一级反应动力学模型(Friedman方法)进行处理,得到了一系列热解分析指标和热解生烃动力学参数,揭示了热解产物组成随生油岩成熟度变化的规律以及演化过程中干酪根结构和热解反应本质的变化。 相似文献
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本文对含有Ⅰ类干酪根的扶16-02井(埋深355.9m)的未成熟生油岩样品进行了一系列人工熟化,得到了具有不同成熟度的样品。对这些熟化样品,用Ⅱ型岩石评价仪(Rock-EvalⅡ)进行了热解常规分析,用Ⅰ型岩石评价仪(Rock-EvalⅠ)进行了热解模拟实验,并用热解气相色谱仪进行了热解产物组成分析。对于热解模拟实验数据,按串联一级反应动力学模型(Friedman方法)进行处理,得到了一系列热解分析指标和热解生烃动力学参数,揭示了热解产物组成随生油岩成熟度变化的规律以及演化过程中干酪根结构和热解反应本质的变化。 相似文献
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应用化学动力学计算生油岩生烃量 总被引:1,自引:0,他引:1
本文介绍了应用化学动力学计算生油岩生烃量技术,包括实验方法,多种热解动力不硎圾其适用性、动力学参数的求取,并结合有关地质参数应用动力学模型计算现场不同埋深、不同油岩的生烃率,从而估算油田工区的生油气量; 相似文献
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东道海子凹陷是准噶尔盆地二叠系重要的勘探领域之一,二叠系平地泉组是该区烃源岩发育的重点层系。通过对东道海子凹陷烃源岩分布及有机质地球化学特征分析,明确了平地泉组烃源岩生烃潜力及生成油气的类型。研究结果表明:(1)东道海子凹陷平地泉组烃源岩的Pr/nC17值为0.35~1.18,Ph/nC18值为0.23~0.81,显示其生烃母质主要为混合源,既有陆地生物的贡献,也有水体生物的贡献。(2)纵向上,平一段和平二段烃源岩质量最好,平一段的好—优质烃源岩占比为81.1%,TOC平均值为1.88%,平二段的好—优质烃源岩占比为62.5%,TOC平均值为1.55%,而平三段的好—优质烃源岩仅占30.2%。平一段和平二段烃源岩主要为Ⅱ型,占比分别为66.7%和48.4%,既可生油也可生气,平三段烃源岩质量较差,以Ⅲ型干酪根为主,具有一定的生气潜力;平面上,烃源岩从边缘区向凹陷区逐渐变好。(3)凹陷边缘区的烃源岩达到成熟演化阶段,凹陷区烃源岩埋深较大,达到高—过成熟演化阶段,该套烃源岩在埋深约为2 500 m时达到生烃门限,在埋深为4 350 m处达到大量排烃门限,而当埋深大于5 050 m时,进入大... 相似文献
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The hydrocarbon source rock potential of five formations in the Potwar Basin of northern Pakistan – the Sakesar Formation (Eocene); the Patala, Lockhart and Dhak-Pass Formations (Paleocene); and the Datta Formation (Jurassic) – was investigated using Rock-Eval pyrolysis and total organic carbon (TOC) measurement. Samples were obtained from three producing wells referred to as A, B and C. In well A, the upper ca. 100 m of the Eocene Sakesar Formation contained abundant Type III gas-prone organic matter (OM) and the interval appeared to be within the hydrocarbon generation window. The underlying part of the Sakesar Formation contained mostly weathered and immature OM with little hydrocarbon potential. The Sakesar Formation passes down into the Paleocene Patala Formation. Tmax was variable because of facies variations which were also reflected in variations in hydrogen index (HI), TOC and S2/S3 values. In well A, the middle portion of the Patala Formation had sufficient maturity (Tmax 430 to 444°C) and organic richness to act as a minor source for gas. The underlying Lockhart Formation in general contained little OM, although basal sediments showed a major contribution of Type II/III OM and were sufficiently mature for hydrocarbon generation. In Well B, rocks in the upper 120 m of the Paleocene Patala Formation contained little OM. However, some Type II/III OM was present at the base of the formation, although these sediments were not sufficiently mature for oil generation. The Dhak Pass Formation was in general thermally immature and contained minor amounts of gas-prone OM. In Well C, the Jurassic Datta Formation contained oil-prone OM. Tmax data indicated that the formation was marginally mature despite sample depths of > 5000 m. The lack of increase in Tmax with depth was attributed to low heat flows during burial. However, burial to depths of more than 5000 m resulted in the generation of moderate quantities of oil from this formation. 相似文献
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为深化渤海湾盆地冀中坳陷上古生界煤系烃源岩地质认识,以有机地球化学实验作为研究手段,分析了上古生界煤系烃源岩有机地球化学特征及其生烃能力,利用埋藏史—热史分析,探讨了生烃演化过程。研究结果显示,霸县凹陷的文安地区、武清凹陷和大城凸起上古生界烃源岩有机质丰度最高,其次是廊固凹陷北部地区,深县凹陷、束鹿凹陷相对较低;冀中坳陷东北部上古生界煤层显微组分以文安地区壳质组含量为最高,平均达29.1%,壳质组含量大于20%的样品数占样品总数的80%以上;生烃热演化经历了低成熟阶段、二次成熟阶段、高成熟凝析油湿气阶段和过成熟干气阶段;在白垩纪末,煤系烃源岩埋藏深度约为1 200~2 000 m,RO值为0.5%~0.7%,达到一次生烃状态;在古近纪末,煤系烃源岩最大埋深>7 000 m,超过中生界最大古埋藏深度或古温度,开始二次生烃,资源潜力较好。 相似文献
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在Rock-Eval热解法、H/C比及加水热模拟实验3种烃源岩生烃潜力评价方法对比的基础上,对塔里木盆地满加尔坳陷低成熟侏罗系煤岩进行了生烃评价。对比结果表明,H/C比值与加水热解实验法评价结果较接近,生烃量分别为9.62和9.72 mg/g,而Rock-Eval热解法得到的生烃潜力为32.75 mg/g,远高于其他两种评价结果。Rock-Eval热解法得到的是烃源岩的最大排烃量,而H/C比与加水热模拟实验法获得的是烃源岩的有效排烃量。因此,在对烃源岩的生烃评价中要根据实际需求选择不同的评价方法。 相似文献
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ORGANIC GEOCHEMISTRY,BURIAL HISTORY AND HYDROCARBON GENERATION MODELLING OF THE UPPER JURASSIC MADBI FORMATION,MASILA BASIN,YEMEN 总被引:1,自引:0,他引:1
Mohammed H. Hakimi Wan H. Abdulah Mohamed R. Shalaby 《Journal of Petroleum Geology》2010,33(4):299-318
The Masila Basin is an important hydrocarbon province in Yemen but the origin of its hydrocarbons is not fully understood. In this study, we evaluate Upper Jurassic source rocks in the Madbi Formation and assess the results of basin modelling in order to improve our understanding of burial history and hydrocarbon generation. This source rock has generated commercial volumes of hydrocarbons which migrated into Jurassic and Lower Cretaceous reservoir rocks. Cuttings samples of shales from the Upper Jurassic Madbi Formation from boreholes in the centre-west of the Masila Basin were analysed using organic geochemistry (Rock-Eval pyrolysis, extract analysis) and organic petrology. The shales generally contain more than 2.0 wt % TOC and have very good to excellent hydrocarbon potential. Kerogen is predominantly algal Type II with minor Type I. Thermal maturity of the organic matter is Rr 0.69–0.91%. Thermal and burial history models indicate that the Madbi Formation source rock entered the early-mature to mature stage in the Late Cretaceous to Early Tertiary. Hydrocarbon generation began in the Late Cretaceous, reaching maximum rates during the Early Tertiary. Cretaceous subsidence had only a minor influence on source rock maturation and OM transformation. 相似文献
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华北东部地区上古生界生烃潜力分析 总被引:2,自引:0,他引:2
华北东部地区上古生界烃源岩“二次生烃”潜力主要取决于烃源岩的埋藏史、热史和生烃史。该区上古生界烃源岩主要有4种埋藏史类型:早期浅埋-中期抬升-晚期深埋型、早期浅埋-中期浅埋-晚期深埋型、早期中埋-中期深埋-晚期浅埋型和早期深埋-中晚期抬升型。生烃史模拟结果表明,东濮凹陷“二次生烃”集中于古近纪,晚期生烃潜力大;济阳坳陷“二次生烃”以古近纪为主,晚期生烃潜力较大;临清坳陷“二次生烃”主要在侏罗纪-白垩纪,晚期生烃潜力小。上古生界砂岩储集层物性主要受控于沉积相和埋藏深度,石英含量高、粒度粗的储集层物性条件好,有效储集层深度下限大。“二次生烃”深度上限与有效储集层深度下限共同控藏模式表明,东濮凹陷和济阳坳陷上古生界天然气成藏条件好,周口坳陷和临清坳陷较差。图5表2参20 相似文献
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运用盆地模拟方法,对苏北盆地高邮凹陷泰州组烃源岩的埋藏史、温度史、成熟度史及生油史进行研究发现,三垛早期,泰二段烃源岩进入成熟阶段,Ro达0.6%,且随着埋深增大,地层温度、烃源岩成熟度和生烃能力也逐渐增加;三垛末期,地层埋藏深度、温度及烃源岩成熟度都达到最大,分别为3000m,110℃和0.8%,同时烃源岩生油量也达顶峰,东部的焦1井高达350mg/g。由此看出,三垛时期是高邮凹陷泰二段烃源岩生、排烃的主要时期。另外,由于三垛时期构造、断层活动强烈,圈闭大多定型,因而综合分析认为,三垛时期也是油气运移、成藏的有利和主要时期。 相似文献
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莺-琼盆地的独特埋藏史 总被引:3,自引:0,他引:3
通过沉积速率线性外推剥蚀厚度恢复、脱压实和异常高压以及古水深校正的单井埋藏史和连井埋藏剖面及构造沉降分析,发现莺-琼盆地是个多旋回沉积盆地,其沉积物埋藏过程可分为早期缓慢浅埋和晚期快速深埋两大阶段.这种独特的埋藏历史不仅是储层孔隙增生与保存的主要控制因素之一,而且极大地影响了烃源岩于酪根热解反应路径、烃类的运移和聚集,异常高压的发育以及所发生的复杂的水(气)—岩相互作用.涸11-4油田位于南海北部湾盆地涸西南凹陷,距广西北海市103km,离涸10-3油田17km.油田于1993年9月19日投产,目前开发形势较好,产量、压力稳定.在开发实践中我们体会到,要提高油田开发水平,搞好油藏监测是非常重要的.1钻井和完井过程中的油藏监测 相似文献