天然气烟囱内沉积岩中记录的成因特征:印度尼西亚近海望加锡海峡案例研究

Syahreza S. Angkasa , Harya D. Nugraha , Dian Yesy Fatimah , Ananda Bagus Krisna Pratama
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摘要

甲烷渗漏普遍存在于全球海洋盆地,表明甲烷从地下向上迁移,在地震反射数据中通常表现为气体烟囱。甲烷迁移的足迹通常由甲烷衍生的自生碳酸盐(MDAC)表明,MDAC 是甲烷厌氧氧化(AOM)的产物。尽管对现今海床和露头的 MDAC 进行了广泛研究,但对地下岩石样本中甲烷迁移足迹的了解仍然有限。因此,本研究旨在调查从已证实的天然气迁移区域采集的地下岩石样本中的甲烷迁移足迹。本研究利用了位于印度尼西亚近海望加锡海峡的 XS-01 井的切割样本。这口井是通过一个天然气烟囱钻进的,钻进的是新近纪碳酸盐岩储层,其中有大量甲烷柱(102 米)。对 44 个切割样本的分析包括岩相学检查、扫描电子显微镜 (SEM) 成像和 X 射线衍射 (XRD) 分析,以辨别矿物含量和成岩特征,这预示着天然气的存在。根据岩相学分析,在有孔虫化石内部和裂缝周围发现了一种成岩质地,称为凝块球状微晶岩(CPM)。CPM 是 MDAC 的一种,主要出现在细粒硅质岩中,表明气体迁移。据解释,这种迁移发生在(i) 自渐新世以来的早期埋藏阶段,源于微生物活动(生物成因气体);(ii) 在中始新世至上新世达到顶峰的成熟源岩之后(热成因气体);或 (iii) 这两个过程的干扰。从地震反射数据中发现的天然气烟囱和海底麻点可以证明,迁移路线一直持续到今天。这项研究强调了地下岩石样本(如岩屑)在揭示天然气迁移足迹方面的重要性。尤其是在地震数据不可用或无法对流体流动特征进行成像的情况下。此外,这项研究还为甲烷迁移路线上的成岩作用提供了一个新的视角,补充了大部分主要关注储层成岩作用的研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Diagenetic features recorded in sedimentary rocks within a gas chimney: A case study from the Makassar Strait, offshore Indonesia
Methane seeps, prevalent in ocean basins globally, indicate upward methane migration from the subsurface, often evident as gas chimneys in seismic reflection data. The footprint of this methane migration is often indicated by methane-derived authigenic carbonate (MDAC), a product of anaerobic oxidation of methane (AOM). Despite extensive research on MDAC from present-day seafloors and outcrops, understanding methane migration footprints from subsurface rock samples remains limited. Therefore, this study aims to investigate methane migration footprints from subsurface rock samples taken from a proven area of gas migration. This study utilized cutting samples from well XS-01 located in the Makassar Strait, offshore Indonesia. The well was drilled through a gas chimney into Oligocene carbonate reservoirs hosting a substantial methane column (102 m). Analysis of 44 cutting samples involved petrographic examination, Scanning Electron Microscope (SEM) imaging, and X-ray Diffraction (XRD) analysis to discern mineralogical content and diagenetic features signaling the presence of gas. A diagenetic texture called clotted peloidal micrite (CPM) was discovered within foraminifera fossils and around fractures based on petrographic analysis. CPM is a type of MDAC and predominantly occurs in fine-grained, siliciclastic rocks, indicating gas migration. This migration is interpreted to occur: (i) during the early burial stages originating from microbial activity since the Oligocene (biogenic gas); (ii) following matured source rock that reached its peak maturity from the Middle Eocene to the Pliocene (thermogenic gas); or (iii) interference of these two processes. The migration route persists until present day as evidenced by gas chimney and seabed pockmarks identified in seismic reflection data. This study emphasizes the importance of subsurface rock samples, such as cuttings, in uncovering gas migration footprints. Especially, where seismic data is unavailable or could not image fluid flow features. In addition, this study also provides a new perspective on diagenesis along methane migration route, complementing most of the research that is primarily focused on reservoir diagenesis.
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