Pressure-volume-temperature analysis of Caspian oil to improve the analytical delumping procedure

Q3 Mathematics
J. Ismailova, A. Baibekova, D. Delikesheva, A. Abdukarimov, A. Khussainova
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引用次数: 0

Abstract

Compositional modeling of the reservoir isn’t complete without calculations of phase equilibrium and is a complex process involving many calculations. In nature, hydrocarbons don’t occur as separate components, they’re mainly mixtures. When modeling the reservoir composition for phase equilibrium calculations, in order to reduce computational costs, in practice, hydrocarbon mixtures are grouped into pseudo-components. The number of grouped pseudo-components varies from 4 to 10. This grouping process is called lumping. However, when crude oil comes to the surface, it’s important to know its detailed composition, since mixtures grouped into pseudo-components don’t allow you to know this. In this regard, modeling of the detailed composition of hydrocarbons is the main tool for understanding the detailed phase separation and design of surface facilities. In practice, this process is called delumping. In the case of this process, the detailed composition of the fluid is presented and the amount reaches up to 36 components, sometimes more. The delumping process, due to the precise separation of heavy plus fractions into carbons with single ordinal numbers (C7, C8, etc.), makes it possible to clearly recognize non-zero BIP’s in the equation of state. The new analytical approach has not previously been applied to the oils of the Caspian region, so this approach has an important role for the oil industry in the Caspian region. Analytical delumping in this paper was done to improve the PVT modeling. This paper presents the results of PVT research of Caspian oil and presents a comparison of analytical and numerical methods of delumping. As a result of the study, it was found that the analytical approach is in excellent agreement with experimental data and data from software such as PVTsim
对里海石油进行压力-体积-温度分析以改进分析脱块程序
没有相平衡的计算,储层的成分建模就不完整,这是一个复杂的过程,涉及许多计算。在自然界中,碳氢化合物并不是以单独成分出现的,它们主要是混合物。在为相平衡计算建立储层组成模型时,为了降低计算成本,实际上会将碳氢化合物混合物分组为假组分。分组的伪组分数量从 4 个到 10 个不等。这种分组过程被称为分块。然而,当原油浮出地表时,了解其详细成分就显得尤为重要,因为按假组分分组的混合物无法了解其详细成分。在这方面,碳氢化合物详细成分的建模是了解详细相分离和设计地面设施的主要工具。在实践中,这一过程被称为脱嵌。在这一过程中,流体的详细成分被呈现出来,其数量多达 36 种成分,有时甚至更多。由于将重加馏分精确地分离成具有单序号(C7、C8 等)的碳元素,分块过程可以清楚地识别状态方程中的非零 BIP。本文中的分析分块是为了改进 PVT 建模。本文介绍了里海石油的 PVT 研究成果,并对分析和数值分块方法进行了比较。研究结果表明,分析方法与实验数据和 PVTsim 等软件的数据非常吻合。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Eastern-European Journal of Enterprise Technologies
Eastern-European Journal of Enterprise Technologies Mathematics-Applied Mathematics
CiteScore
2.00
自引率
0.00%
发文量
369
审稿时长
6 weeks
期刊介绍: Terminology used in the title of the "East European Journal of Enterprise Technologies" - "enterprise technologies" should be read as "industrial technologies". "Eastern-European Journal of Enterprise Technologies" publishes all those best ideas from the science, which can be introduced in the industry. Since, obtaining the high-quality, competitive industrial products is based on introducing high technologies from various independent spheres of scientific researches, but united by a common end result - a finished high-technology product. Among these scientific spheres, there are engineering, power engineering and energy saving, technologies of inorganic and organic substances and materials science, information technologies and control systems. Publishing scientific papers in these directions are the main development "vectors" of the "Eastern-European Journal of Enterprise Technologies". Since, these are those directions of scientific researches, the results of which can be directly used in modern industrial production: space and aircraft industry, instrument-making industry, mechanical engineering, power engineering, chemical industry and metallurgy.
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