Determining the gas accumulation period using fluid inclusion observations: Xiang Zhong Basin, China

IF 5.8 4区 工程技术 Q1 MECHANICS
Wei Zhu, Yongdi Qi, Shixin Dai, Mingsu Shen
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引用次数: 1

Abstract

Abstract There are a large number of natural gas shows in the Upper Paleozoic of the central Hunan Basin. However, the hydrocarbon accumulation process was complicated due to the strong tectonic reformation in this area. A study of the natural gas accumulation period is of significance for determining gas accumulation models. In this research, the fluid inclusion samples were tested, the fluid inclusion occurrence characteristics, uniform temperature data, and reservoir evolution were analyzed, and four diagenetic periods and four diagenetic periods and three hydrocarbon accumulation periods were identified. (i) For the syntaxial stage, the filling is dark and nonluminous, and the fluid captured by the overgrowing cement around the particles is mainly seawater; (ii) for the (Early) Mesogenetic burial stage, the calcite cement grows around the particles or micritic calcite matrix, and the fluid captured is mainly brine; (iii) for (Late) Mesogenetic burial stage, two sets of decomposed fissures developed in massive calcite colloids with non-luminous gas-rich hydrocarbon inclusions within the crystals; and (iv) for Telogenetic burial stage, weakly fluorescent pure gaseous hydrocarbon inclusions are developed in luminescent calcite veins. The result indicates that the organic inclusions in the Lower Carboniferous of the central Hunan Basin are dominated by weakly fluorescent and nonfluorescent rich gas inclusions and pure gas-phase inclusions, with three stages of hydrocarbon filling. By integrating the average homogenization temperatures on burial curves, the three charging orders correspond to 260–250 Ma during the Late Permian, 249–245 Ma during the Early Triassic, and 208–170 Ma during the Late Triassic. Dense reservoir characteristics reveal deep basin gas reservoir in deep basin.
利用流体包裹体观测确定天然气聚集期:中国湘中盆地
摘要湘中地区上古生界存在大量天然气展露。但由于该区构造改造强烈,油气成藏过程复杂。研究天然气成藏期对确定天然气成藏模式具有重要意义。通过对流体包裹体样品进行测试,分析流体包裹体赋存特征、均匀温度数据及储层演化,识别出4个成岩期、4个成岩期和3个成藏期。(i)合成阶段,充填体颜色较暗,不发光,颗粒周围过度生长的胶结物捕获的流体主要是海水;(ii)中第三纪(早)埋藏阶段,方解石胶结物围绕颗粒或泥晶方解石基质生长,捕获流体以卤水为主;(iii)中第三纪晚期,块状方解石胶体中发育两套分解裂缝,晶体内含有不发光的富气烃类包裹体;(4)晚生埋藏阶段,发光方解石脉中发育弱荧光纯气态烃包裹体。结果表明,湘中地区下石炭统有机包裹体以弱荧光和非荧光富气包裹体和纯气相包裹体为主,存在3期油气充注。通过对埋藏曲线平均均一温度的积分,得出三个充注顺序分别为晚二叠世260 ~ 250 Ma、早三叠世249 ~ 245 Ma和晚三叠世208 ~ 170 Ma。致密储层特征揭示了深盆气藏的存在。
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来源期刊
Applied Rheology
Applied Rheology 物理-力学
CiteScore
3.00
自引率
5.60%
发文量
7
审稿时长
>12 weeks
期刊介绍: Applied Rheology is a peer-reviewed, open access, electronic journal devoted to the publication in the field of applied rheology. The journal provides the readers with free, instant, and permanent access to all content worldwide; and the authors with extensive promotion of published articles, long-time preservation, language-correction services, no space constraints and immediate publication.
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