珠江口盆地陆丰凹陷古近系有效砂岩储层标准及有利分布区预测

IF 9 1区 地球科学 Q1 ENERGY & FUELS
Savchuk A Yu, Cheng Wang, Dongxia Chen, B. Guo, Zhe Cai, Zhi Xu
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引用次数: 1

摘要

随着常规油气勘探重心由浅层向深层转移,深部有效储层的识别对勘探开发至关重要。本文在油气藏地质解剖的基础上,结合成藏动力学机理分析,提出了有效油气藏的新的判别标准和评价方法。结果表明,砂岩储层的油气性质随其与围岩之间毛细力的比值而变化。根据周围介质的毛细力和深度以及相邻板块的砂岩储层来判别有效储层,评价储层质量。当毛管力比大于0.6时,有效储层发育较少。有效储层由砂岩储层与围岩介质的毛细力比决定,从力学上解释了低孔储层也能成藏的地质现象。研究结果对珠江口盆地朱一坳陷古近系油气勘探具有重要指导价值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Criteria and favorable distribution area prediction of Paleogene effective sandstone reservoirs in the Lufeng Sag, Pearl River Mouth Basin
: As the focus of conventional oil and gas exploration is changing from shallow to deep layers, the identification of deep effective reservoirs is crucial to exploration and development. In this paper, based on the geological anatomy of oil and gas reservoirs, a new discriminatory criterion and evaluation method for effective reservoirs is proposed in combination with the analysis of reservoir formation dynamics mechanism. The results show that the hydrocarbon properties of the reservoir vary with the ratio of the capillary force between the sandstone reservoir and its surrounding rock. The effective reservoir is discriminated and the reservoir quality is evaluated based on the capillary force and depth of the surrounding media and the sandstone reservoir for adjacent plates. When the capillary force ratio is greater than 0.6, fewer effective reservoirs are developed. The effective reservoir is determined by the capillary force ratio of the sandstone reservoir and the surrounding rock medium to mechanically explain the geological phenomenon that low-porosity reservoirs can also accumulate hydrocarbons. Our findings have significant guiding value for Paleogene oil and gas exploration in the Zhu I depression of Pearl River Mouth Basin.
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来源期刊
Advances in Geo-Energy Research
Advances in Geo-Energy Research natural geo-energy (oil, gas, coal geothermal, and gas hydrate)-Geotechnical Engineering and Engineering Geology
CiteScore
12.30
自引率
8.50%
发文量
63
审稿时长
2~3 weeks
期刊介绍: Advances in Geo-Energy Research is an interdisciplinary and international periodical committed to fostering interaction and multidisciplinary collaboration among scientific communities worldwide, spanning both industry and academia. Our journal serves as a platform for researchers actively engaged in the diverse fields of geo-energy systems, providing an academic medium for the exchange of knowledge and ideas. Join us in advancing the frontiers of geo-energy research through collaboration and shared expertise.
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