基于深部流体动力学的亚马尔-涅涅茨自治区异常高储层压力带油气远景

IF 0.8 Q3 ENGINEERING, PETROLEUM Georesursy Pub Date : 2023-09-30 DOI:10.18599/grs.2023.3.3
Alexey A. Nezhdanov, Valeriy V. Ogibenin
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引用次数: 0

摘要

在西伯利亚西部,异常高储层压力带(AHRP)在盆地北部覆盖面积超过50万平方公里。它起始于新comian砂粉质组Achimov组之上的一层粘土,覆盖了Achimov组、上-下侏罗统、三叠纪和部分古生代,受构造控制,表明这一现象的成因较深。由K.A. Anikiev于20世纪70年代提出的AHRP气压理论(即气动力理论),使我们能够对AHRP带的油气含量前景进行评估,而不是通常所接受的。对yamalo -涅涅茨自治区以前完成的深层地质勘探工作结果的分析表明,其相对较低的效率(50-60%)与井作业质量不够高有关,主要是固井,这也是由于AHRP的影响。在所有钻到深层的井中,获得了油气潜力的直接迹象,并确定了固井缺陷。由此得出结论,深层流体动力学过程(地球内部的活动、压力脱气)既导致了储层岩石中碳氢化合物的饱和,也导致了储层岩石的充填动力学(超高压和超高速),这决定了储层岩石的主要特征。认识到深层烃源不仅可以从根本上增加AHRP带的资源基础,而且还需要对该区油气矿床的形成和结构及其模型的岩石物理证实进行修正。然而,要实现AHRP区独特的油气潜力,首先需要提高深井建设质量和适当的信息含量。
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Prospects for the oil and gas potential of the zone of abnormally high reservoir pressures in the Yamalo-Nenets Autonomous Okrug assuming deep fluid dynamics
In Western Siberia, the zone of abnormally high reservoir pressures (AHRP) covers an area of more than 500 thousand km2 in the north of the basin. It begins with a clay layer above the Achimov formation of Neocomian sandy-silty formation, covers the Achimov formation, Upper–Lower Jurassic, Triassic and partially Paleozoic and is subject to tectonic control, which indicates the deep origin of this phenomenon. Gas-pressure, or gas-dynamic, theory of AHRP, proposed by K.A. Anikiev in the 70s of the 20th century, allows us to assess the prospects for oil and gas content of the AHRP zone higher than it is commonly-accepted. Analysis of the results of previously completed geological exploration work on the deep horizons of the Yamalo-Nenets Autonomous Okrug indicates that their relatively low efficiency (50–60%) is associated with the insufficiently high quality of well operations, primarily cementing, which is also due to the influence of AHRP. In all wells drilled to deep horizons, direct signs of oil and gas potential were obtained and cementing defects were identified. It is concluded that deep fluid-dynamic processes (active, pressure degassing of the Earth’s interior) are responsible both for the saturation of reservoir rocks with hydrocarbons and for the dynamics of their filling (ultra-high pressures and velocities), which determine the main characteristics of reservoir rocks. Recognition of a deep source of hydrocarbons will not only make it possible to fundamentally increase the resource base of the AHRP zone, but will also require a revision of ideas about the formation and structure of hydrocarbon deposits in this zone and the petrophysical substantiation of their models. However, to realize the unique hydrocarbon potential of the AHRP zone, it is necessary, first of all, to improve the quality of deep wells construction and appropriate information content.
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来源期刊
Georesursy
Georesursy ENGINEERING, PETROLEUM-
CiteScore
1.50
自引率
25.00%
发文量
49
审稿时长
16 weeks
期刊最新文献
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