OGIP Estimation from Boundary Dominated Data Using Normalized Variables: A Field Case Application in a Tight Gas HP/HT Field

Adolfo D'Windt, A. Al-Saffar
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Abstract

Accurate estimation of the Original Gas in Place (OGIP) early in the reservoir life is fundamental as field development plans and ultimate recovery strongly depend on it. This is particularly relevant when the conventional material balance is not suitable due to the lack of pertinent shut-in pressure measurements. This paper presents a case history of a tight gas field in which we use flowing material balance technique and type curves for decline curve analysis to calculate OGIP by using only flowing pressure and rate data. The method uses fundamental pseudo-steady state theory, which determines that a plot of the rate-normalized pressure drop vs the pseudo-time produces a straight line with the slope of such line yielding the OGIP. The use of the pseudo time concept calls for the estimate of gas properties at the prevailing reservoir pressure which in turn is a function of the OGIP and the cumulative production. We propose an iterative scheme based on the Newton-Raphson method to compute the OGIP using the flowing material balance technique coupled with the conventional P/Z material balance. We illustrate the application of the method with the aid of synthetic examples as well as field cases obtained from low permeability gas reservoirs where no shut-in pressures are available. Results from the technique adequately compare with type-curve matching analysis. Furthermore, we demonstrate the problem can be transformed into an equivalent-liquid system and being analyzed with standard PTA techniques using the constant rate liquid solution. In absence of shut-in pressure information, the PSS analysis offers an attractive alternative to the conventional material balance method. Besides, the method only requires minimal phase behavior data in the case of gases rendering its application practical and convenient. Also, we describe how to transform the constant pressure problem into a constant rate one in order to apply standard PTA techniques. Additionally, this work demonstrates the importance of having automated wells with permanent gauges by enhancing the value of the information provided by them in the framework of an adequate and judicious reservoir management.
基于归一化变量的边界主导数据OGIP估计:致密气高温高压油田实例应用
由于油田开发计划和最终采收率在很大程度上依赖于OGIP,因此在储层生命早期对OGIP的准确估计是至关重要的。当由于缺乏相关关井压力测量,传统的物料平衡不适合时,这一点尤为重要。本文以某致密气田为例,利用流动物质平衡技术和递减曲线分析的类型曲线,仅利用流动压力和流动速率数据计算出OGIP。该方法使用基本的伪稳态理论,该理论确定了速率归一化压降与伪时间的图产生一条直线,该直线的斜率产生OGIP。伪时间概念的使用要求估计当前储层压力下的气体性质,而这又是OGIP和累积产量的函数。我们提出了一种基于牛顿-拉夫森方法的迭代方案,利用流动物质平衡技术和传统的P/Z物质平衡来计算OGIP。我们通过综合算例以及从无关井压力的低渗透气藏获得的现场案例来说明该方法的应用。该方法的结果与类型曲线匹配分析有充分的比较。此外,我们还证明了该问题可以转化为等效液体系统,并使用恒速率液体溶液用标准PTA技术进行分析。在没有关井压力信息的情况下,PSS分析为传统的材料平衡方法提供了一个有吸引力的替代方案。此外,该方法只需要最少的气体相行为数据,使其应用更加实用和方便。此外,我们还描述了如何将恒压问题转化为恒速问题,以便应用标准的PTA技术。此外,这项工作还证明了配备永久性仪表的自动化井的重要性,因为它可以提高仪表提供的信息在充分和明智的油藏管理框架中的价值。
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