Oil families, oil–source rock correlation, basin modeling, and implication for petroleum systems, Termit Basin, Niger

IF 2.7 3区地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY

AAPG Bulletin Pub Date : 2024-06-01 DOI:10.1306/02132422137

Bang Liu, Lirong Dou, Guanghua Zhai, Fengjun Mao, Jiguo Liu, Mingsheng Lü, Dingsheng Cheng

{"title":"Oil families, oil–source rock correlation, basin modeling, and implication for petroleum systems, Termit Basin, Niger","authors":"Bang Liu, Lirong Dou, Guanghua Zhai, Fengjun Mao, Jiguo Liu, Mingsheng Lü, Dingsheng Cheng","doi":"10.1306/02132422137","DOIUrl":null,"url":null,"abstract":"In the first comprehensive study of the Termit Basin petroleum system, an integrated organic geochemistry and basin modeling study of potential source rocks and related oils was conducted to evaluate source rock potential, classify oil families, establish oil–source correlation, and explain the distribution of petroleum systems. Six hundred forty-three cutting samples from the Paleogene Sokor1 Formation, Upper Cretaceous Yogou and Donga Formations, and Lower Cretaceous K1 Formation were analyzed using total organic carbon, Rock-Eval pyrolysis, vitrinite reflectance, and kerogen element analysis. The results suggest that the Sokor1, Yogou, and Donga Formations are poor to excellent source rocks with type I, II, II-III, and III kerogen, and most of the samples are thermally mature and within the oil window. Samples from the K1 Formation have poor organic richness and are thermally mature to postmature. In vertical, samples from the upper member of the Yogou Formation have greater organic matter richness and contain more oil-prone type I and oil-prone type II organic matter than those from the lower member. In horizontal, samples from the Donga Formation on the east side of the basin are dominated by very oil-prone type I and oil-prone type II organic matter and have higher hydrocarbon generation potential than those on the west side, which mainly contain oil- and gas-prone type II-III and gas-prone type III organic matter. One-dimensional basin modeling results demonstrate that the Sokor1 source rocks are mature in the northwestern part of the basin, are immature on the eastern side at present-day, and oil generation began in the early Oligocene. The Yogou source rocks are in the early oil to wet gas stage at present-day, and oil generation began at the end of the Late Cretaceous. The Donga source rocks are in the late oil to dry gas stage at present-day, and oil generation commenced in the middle Late Cretaceous. The maturation of these source rocks increased rapidly during the Oligocene due to active rifting. Three families (I, II, and III) were identified by hierarchical cluster analysis, principal component analysis, and stable carbon isotope compositions for 97 oil samples and eight rock extracts. Most of the oils (family I) were derived from Yogou source rocks, and their extensive distribution and wide range of thermal maturities are closely related to the large area of mature Yogou source rocks in the basin. Family II oils occur in the northwestern part of the basin and are genetically related to Sokor1 source rocks. The family III oil occurs on the east side of the basin and originated from the Donga Formation. This study confirms the existence of three petroleum systems between the Paleogene and Upper Cretaceous and helps to identify exploration prospects and guide petroleum resource assessment in the Termit Basin.","PeriodicalId":7124,"journal":{"name":"AAPG Bulletin","volume":"49 1","pages":""},"PeriodicalIF":2.7000,"publicationDate":"2024-06-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"AAPG Bulletin","FirstCategoryId":"89","ListUrlMain":"https://doi.org/10.1306/02132422137","RegionNum":3,"RegionCategory":"地球科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"GEOSCIENCES, MULTIDISCIPLINARY","Score":null,"Total":0}

引用次数: 0

Abstract

In the first comprehensive study of the Termit Basin petroleum system, an integrated organic geochemistry and basin modeling study of potential source rocks and related oils was conducted to evaluate source rock potential, classify oil families, establish oil–source correlation, and explain the distribution of petroleum systems. Six hundred forty-three cutting samples from the Paleogene Sokor1 Formation, Upper Cretaceous Yogou and Donga Formations, and Lower Cretaceous K1 Formation were analyzed using total organic carbon, Rock-Eval pyrolysis, vitrinite reflectance, and kerogen element analysis. The results suggest that the Sokor1, Yogou, and Donga Formations are poor to excellent source rocks with type I, II, II-III, and III kerogen, and most of the samples are thermally mature and within the oil window. Samples from the K1 Formation have poor organic richness and are thermally mature to postmature. In vertical, samples from the upper member of the Yogou Formation have greater organic matter richness and contain more oil-prone type I and oil-prone type II organic matter than those from the lower member. In horizontal, samples from the Donga Formation on the east side of the basin are dominated by very oil-prone type I and oil-prone type II organic matter and have higher hydrocarbon generation potential than those on the west side, which mainly contain oil- and gas-prone type II-III and gas-prone type III organic matter. One-dimensional basin modeling results demonstrate that the Sokor1 source rocks are mature in the northwestern part of the basin, are immature on the eastern side at present-day, and oil generation began in the early Oligocene. The Yogou source rocks are in the early oil to wet gas stage at present-day, and oil generation began at the end of the Late Cretaceous. The Donga source rocks are in the late oil to dry gas stage at present-day, and oil generation commenced in the middle Late Cretaceous. The maturation of these source rocks increased rapidly during the Oligocene due to active rifting. Three families (I, II, and III) were identified by hierarchical cluster analysis, principal component analysis, and stable carbon isotope compositions for 97 oil samples and eight rock extracts. Most of the oils (family I) were derived from Yogou source rocks, and their extensive distribution and wide range of thermal maturities are closely related to the large area of mature Yogou source rocks in the basin. Family II oils occur in the northwestern part of the basin and are genetically related to Sokor1 source rocks. The family III oil occurs on the east side of the basin and originated from the Donga Formation. This study confirms the existence of three petroleum systems between the Paleogene and Upper Cretaceous and helps to identify exploration prospects and guide petroleum resource assessment in the Termit Basin.

查看原文本刊更多论文

尼日尔特米特盆地油系、油源岩相关性、盆地建模及对石油系统的影响

在对特米特盆地石油系统进行的首次综合研究中，对潜在的源岩和相关石油进行了有机地球化学和盆地模型综合研究，以评估源岩潜力、划分石油家族、建立油源相关性并解释石油系统的分布。研究人员利用总有机碳、Rock-Eval 热解、玻璃光泽反射率和角质元素分析方法，对来自古近纪索科尔1 地层、上白垩统约古地层和东嘎地层以及下白垩统 K1 地层的 643 个切割样本进行了分析。结果表明，索科尔1地层、窑沟地层和东嘎地层是贫油源岩到极佳油源岩，具有I、II、II-III和III型角质，大多数样本热成熟，处于石油窗口期。K1 地层的样本有机质丰富度较差，热成熟至后成熟。在纵向上，窑沟地层上部的样本比下部的样本富含更多的有机质，并含有更多的易出油 I 型和易出油 II 型有机质。在水平方向上，盆地东侧的东嘎地层样本以极易生油的Ⅰ型和Ⅱ型有机质为主，生烃潜力高于西侧的样本，后者主要含有易生油气的Ⅱ-Ⅲ型和易生气的Ⅲ型有机质。一维盆地建模结果表明，索科尔1号源岩在盆地西北部发育成熟，东侧目前尚未发育成熟，石油生成始于渐新世早期。Yogou源岩目前处于早期石油到湿气阶段，石油生成始于晚白垩世末期。东嘎源岩目前处于晚期石油到干气阶段，石油生成始于晚白垩世中期。在渐新世，由于断裂活跃，这些源岩的成熟度迅速提高。通过对 97 个石油样本和 8 个岩石提取物进行分层聚类分析、主成分分析和稳定碳同位素组成分析，确定了三个系列（I、II 和 III）。大部分油类（I 族）来自窑沟源岩，其广泛分布和广泛的热成熟度与盆地中大面积的成熟窑沟源岩密切相关。二系石油分布在盆地西北部，在基因上与索科尔1号源岩有关。III 族石油分布在盆地东侧，源于东嘎地层。这项研究证实了在古近纪和上白垩纪之间存在三个石油系统，有助于确定勘探前景并指导特米特盆地的石油资源评估。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

AAPG Bulletin 工程技术-地球科学综合

CiteScore

6.60

自引率

11.40%

发文量

审稿时长

4.8 months

期刊介绍： While the 21st-century AAPG Bulletin has undergone some changes since 1917, enlarging to 8 ½ x 11” size to incorporate more material and being published digitally as well as in print, it continues to adhere to the primary purpose of the organization, which is to advance the science of geology especially as it relates to petroleum, natural gas, other subsurface fluids, and mineral resources. Delivered digitally or in print monthly to each AAPG Member as a part of membership dues, the AAPG Bulletin is one of the most respected, peer-reviewed technical journals in existence, with recent issues containing papers focused on such topics as the Middle East, channel detection, China, permeability, subseismic fault prediction, the U.S., and Africa.