A step-by-step approach to creating and tuning PVT-models of reservoir hydrocarbon systems based on the state equation

IF 0.8 Q3 ENGINEERING, PETROLEUM
Georesursy Pub Date : 2022-09-30 DOI:10.18599/grs.2022.3.14
T. Yushchenko, A. Brusilovsky
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Abstract

The article is considering a new effective step-by-step approach to creating and tuning PVT-models of reservoir oil and reservoir gas condensate mixtures. The method is based on the reproducing of the results of field measurements and basic laboratory studies of representative samples in thermodynamic modeling using cubic three parameters equation of state. Tuning PVT-model is used for reliable modeling of PVT properties of reservoir fluids (reservoir oil and reservoir gas) in the design and monitoring of field development, calculation of multiphase flow in wells and field pipelines, as well as in basin modeling. Proposed approach makes possible to tune the PVT model with high accuracy of both reservoir oil and reservoir gas condensate system to experimental data using a step-by-step procedure, where at each step, by changing one of the parameters of the equation of state, one of the PVT properties of the hydrocarbon system is tuned. Algorithmization and automated application of this approach in specialized software products is possible. Proposed approach allows tune reservoir oil PVT-models on the main PVT-properties such as saturation pressure, FVF, STO density, gas-oil ratio of reservoir oil and dependencies of dynamic viscosity and compressibility on pressure at reservoir temperature as well as STO density. The tuned gas-condensate PVT-model precisely reproduces the key properties such as dew point pressure, initial condensate content in the reservoir gas, z-factor of the reservoir gas, gas-oil ratio, stable condensate density, drop down curve by the result of CVD-test. PVT-models created on the base of the proposed method, provide reliable information on the properties of a reservoir fluid in development of flow simulation both using a reservoir simulation compositional models and using pseudo models “black oil”. The method is illustrated by the example of creation of the adequate PVT-models of various regions of Russia reservoir oil and reservoir gas condensate mixtures.
基于状态方程创建和调整储层-油气系统PVT模型的分步方法
本文正在考虑一种新的有效的逐步方法来创建和调整油藏油气凝析油混合物的PVT模型。该方法基于使用三次三参数状态方程对热力学建模中代表性样品的现场测量和基本实验室研究结果的再现。在油田开发的设计和监测、井和油田管道中多相流的计算以及盆地建模中,调整PVT模型用于对储层流体(储层油和储层气)的PVT特性进行可靠建模。所提出的方法可以使用分步程序将油藏油气和油藏凝析油系统的PVT模型高精度地调整为实验数据,其中在每个步骤中,通过改变状态方程的一个参数,调整碳氢化合物系统的一个PVT特性。这种方法在专门的软件产品中的算法化和自动化应用是可能的。所提出的方法允许根据PVT的主要特性(如饱和压力、FVF、STO密度、储层油的气油比)以及动态粘度和压缩性对储层温度下的压力以及STO密度的依赖性来调整储层油PVT模型。调谐后的凝析油PVT模型通过CVD测试结果精确再现了露点压力、储层气中初始凝析油含量、储层气体的z因子、气油比、稳定凝析油密度、下降曲线等关键特性。基于所提出的方法创建的PVT模型,在开发流动模拟时,使用储层模拟组成模型和伪模型“黑油”,提供有关储层流体性质的可靠信息。该方法通过创建俄罗斯储层-油和储层-凝析油混合物各个区域的适当PVT模型的例子进行了说明。
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
Georesursy
Georesursy ENGINEERING, PETROLEUM-
CiteScore
1.50
自引率
25.00%
发文量
49
审稿时长
16 weeks
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