Pyrolytic hydrocarbon generation characteristics of the Chang 7 shale based on different experimental methods: Implications for shale oil and gas in the Ordos Basin

IF 1.4 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY Geological Journal Pub Date : 2024-07-11 DOI:10.1002/gj.5002
Xiaobo Guo, Longfei Zhou, Baohong Shi, Yu Li, Siya Lin, Yanxia Li, Jianbo Sun, Gang Liu, Jintao Yin, Chenglin Zhang
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Abstract

Shale oil and gas resources are abundant in the Chang 7 shale of the Yanchang Formation in Ordos Basin. To determine the characteristics and influencing factors of hydrocarbon generation evolution of the Chang 7 shale, a series of thermal simulation experiments were conducted on low-maturity shale and kerogen samples. The results indicate that the maximum yield of shale oil are 294.5 and 304.3 mg/g TOC for kerogen sample at heating rates of 20 and 2°C/h, and the corresponding experimental temperatures are 360.2°C and 408.0°C, respectively. The utilization of lower heating rates is favourable for shale oil generation and it is recommended to employ a lower heating rate during in situ heating processes to maximize the economic benefits. The formation of crude oil cracking gas begins when simulating temperature exceeds 528.0°C (Easy Ro 2.6%) at a heating rate of 20°C/h and 480.0°C (Easy Ro 2.5%) at a heating rate of 2°C/h, as indicated by the carbon isotopic composition of gaseous hydrocarbons. The maximum oil production rate of the rock powder sample is 159.8 mg/g TOC, which is lower than that of the kerogen sample. It suggests that certain minerals in the Chang 7 shale may impede hydrocarbon generation. After the addition of pyrite, the highest yield of shale oil is 213.96 mg/g TOC, 33.9% higher than the yield of the original rock powder sample, reflecting the positive catalytic effect of pyrite on hydrocarbon generation of Chang 7 shale. Under geologic conditions, pyrite catalytic hydrocarbon generation may act primarily on the migration of organic matter by macromolecules, which considerably increases the probability of direct contact between pyrite and organic matter. Therefore, the organic-rich shale with high pyrite content in Chang 7 member is the preferred target for in situ conversion of shale oil and gas in the Ordos Basin.

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基于不同实验方法的长7页岩热解烃生成特征:对鄂尔多斯盆地页岩油气的启示
鄂尔多斯盆地延长地层长7页岩中蕴藏着丰富的页岩油气资源。为确定长 7 页岩的生烃演化特征和影响因素,对低成熟度页岩和角质样品进行了一系列热模拟实验。结果表明,在加热速率分别为 20°C/h 和 2°C/h 时,页岩油的最大产率分别为 294.5 mg/g TOC,角质样品的最大产率为 304.3 mg/g TOC,相应的实验温度分别为 360.2°C 和 408.0°C。利用较低的加热速率有利于页岩油的生成,建议在原位加热过程中采用较低的加热速率,以获得最大的经济效益。根据气态碳氢化合物的碳同位素组成,在加热速率为 20°C/h 时,模拟温度超过 528.0°C (Easy Ro 2.6%)时,原油裂解气开始形成;在加热速率为 2°C/h 时,模拟温度超过 480.0°C(Easy Ro 2.5%)时,原油裂解气开始形成。岩粉样品的最大产油率为 159.8 mg/g TOC,低于角质样品。这表明,长 7 页岩中的某些矿物质可能会阻碍碳氢化合物的生成。添加黄铁矿后,页岩油的最高产率为 213.96 mg/g TOC,比原始岩粉样品的产率高出 33.9%,反映了黄铁矿对长 7 页岩烃生成的积极催化作用。在地质条件下,黄铁矿催化烃生成可能主要作用于大分子对有机质的迁移,这大大增加了黄铁矿与有机质直接接触的概率。因此,鄂尔多斯盆地页岩油气就地转化的首选目标是长 7 号组中黄铁矿含量高的富含有机质页岩。
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来源期刊
Geological Journal
Geological Journal 地学-地球科学综合
CiteScore
4.20
自引率
11.10%
发文量
269
审稿时长
3 months
期刊介绍: In recent years there has been a growth of specialist journals within geological sciences. Nevertheless, there is an important role for a journal of an interdisciplinary kind. Traditionally, GEOLOGICAL JOURNAL has been such a journal and continues in its aim of promoting interest in all branches of the Geological Sciences, through publication of original research papers and review articles. The journal publishes Special Issues with a common theme or regional coverage e.g. Chinese Dinosaurs; Tectonics of the Eastern Mediterranean, Triassic basins of the Central and North Atlantic Borderlands). These are extensively cited. The Journal has a particular interest in publishing papers on regional case studies from any global locality which have conclusions of general interest. Such papers may emphasize aspects across the full spectrum of geological sciences.
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