两相条件下储层渗透率试验岩心分析新方法

Fengyuan Zhang, Qiang Zhang, Zhengxin Zhang, Z. Rui, Yueliang Liu, Wei Zhang, X. Zheng, F. Torabi, A. Afanasyev
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引用次数: 0

摘要

岩心塞分析的实验方法被广泛用于测量稳态或非稳态流动条件下的地层渗透率,这为地层性质提供了重要的地球科学信息。然而,典型的实验室技术很难再现现实中地层所受的两相水和碳氢化合物的储存和运输条件。因此,我们提出了一种综合实验岩心分析渗透率测量方法,可以更好地再现这两相条件。所提出的实验方法包括两相流体初始化和生产测试,同时记录岩心塞的气速、液速和进出口压力。经过气液均匀分布的构造,岩心样品在变速率和密封边界条件下转变为两相生产过程。利用收集到的两相速率下降和压力数据,进行速率瞬态分析来估计地层渗透率。在实验数据分析中,引入了两相诊断图和特殊图来识别流型,并从直线斜率中提取渗透率。本文利用商业软件生成岩心塞生产试验的综合数据。在岩心桥塞上进行了两相流体初始化模拟和生产试验。模拟结果显示,在生成的诊断图上有一条单位斜率的直线,显示出明显的边界主导流(BDF)模式。通过直线分析,在专业图上以直线周期斜率计算岩心桥塞渗透率。计算渗透率与参考值吻合较好,验证了实验方法的准确性,相对误差小于10%。此外,所提出的两相岩心分析方法可以在不到10分钟的时间内估计出所选岩样的渗透率,大大加快了测试时间。本文提出了一种将两相流条件下小口径岩心采油试验与速率瞬态分析方法相结合的实验室技术,取代了仅在单相流条件下测量渗透率的方法。与以往的实验技术不同,该方法在渗透率测量过程中更真实地再现了地层中两相流的情况。两相岩心分析方法实现了准确、快速表征地层渗透率的目的,将实际储层流体流动与岩心塞进行了“苹果对苹果”的比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A New Experimental Core Analysis Method for Formation Permeability Measurement Under Two-Phase Condition
Experimental methods for core plug analysis are widely used to measure formation permeability under steady-state flow or unsteady state flow conditions, which provides important geoscience information on formation properties. However, typical laboratory techniques hardly reproduce the two-phase water and hydrocarbon storage and transport conditions that formation is subject to in reality. Accordingly, we presented an integrated experimental core analysis method for permeability measurement, which better reproduces these two-phase conditions. The proposed experimental method consists of two-phase fluid initialization and production test, during which the gas rate, liquid rate, and inlet/outlet pressure of the core plug are recorded simultaneously. After constructing with uniform distribution of gas and liquid, the core sample is transformed into a two-phase production process under the conditions of variable rate and sealed boundary. Rate transient analysis is performed to estimate formation permeability with the gathered two-phase rate decline and pressure data. A two-phase diagnostic plot and specialty plot are introduced to identify flow regimes and extract permeability from the slope of a straight line during the experimental data analysis. In this paper, commercial software is used to generate synthetic data for the production test of a core plug. The simulation of two-phase fluid initialization and production tests were conducted on core plugs. The simulation results show a unit-slope straight line on the generated diagnostic plot, which indicates a clear boundary-dominated flow (BDF) regime. By performing a straight-line analysis, we calculated the permeability of the core plug with the slope of straight-line period on specialty plot. The good match of the calculated permeability with the reference value confirms the accuracy of the proposed experimental method with the relative error less than 10%. In addition, the proposed two-phase core analysis method can enormously accelerate test-time, as the permeability of selected rock sample can be estimated in less than 10 minutes. Instead of measuring permeability only under the condition of single phase flow, this paper presents a laboratory technique that combines the experiment of small-diameter core production test under two-phase flow with rate transient analysis method. Unlike prior experimental techniques, the proposed method reproduces the more realistic condition of two-phase flow in the formation during permeability measurement. The two-phase core analysis method achieves the objective of accurate and fast characterization of formation permeability, which is a more "apples to apples" comparison between the fluid flow in the actual reservoir and the core plug.
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