PRESSURE TRANSIENT ANALYSIS FOR A RESERVOIR WITH A FINITE-CONDUCTIVITY FAULT

F. Escobar, J. Martínez, Matilde Montealegre-Madero
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引用次数: 13

Abstract

The signature of the pressure derivative curve for reservoirs with finite-conductivity faults is investigated to understand their behavior and facilitate the interpretation of pressure data. Once a fault is reached by the disturbance, the pressure derivative displays a negative unit-slope indicating that the system is connected to an aquifer, meaning dominance of steady-state flow regime. Afterwards, a half-slope straightline is displayed on the pressure derivative plot when the flow is linear to the fault. Besides, if simultaneously a linear flow occurs inside the fault plane, then a bilinear flow regime takes place which is recognized by a 1/4 slope line on the pressure derivative line. This paper presents the most complete analytical well pressure analysis methodology for finite-conductivity faulted systems using some characteristics features and points found on the pressure and pressure derivative log-log plot. Therefore, such plot is not only used as diagnosis criterion but also as a computational tool. The straight-line conventional analysis is also complemented for characterization of finite- and infinite-conductivity faults. Hence, new equations are introduced to estimate the distance to fault, the fault conductivity and the fault skin factor for such systems. The proposed expressions and methodology were successfully tested with field and synthetic cases.
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有限导流断层油藏压力瞬态分析
研究了具有有限导流性断层的储层压力导数曲线的特征,以了解其行为,并为压力资料的解释提供便利。一旦扰动到达断层,压力导数显示负的单位斜率,表明系统与含水层相连,这意味着稳态流态的优势。然后,当流量与断层成线性时,压力导数图上显示半斜率直线。此外,如果断区内同时发生线性流动,则会出现双线性流动,并由压力导数线上的a1/4斜率线识别。本文利用压力和压力导数对数-对数图上的一些特征和点,提出了有限导电性断裂系统的最完整的解析井压分析方法。因此,这种图不仅可以作为诊断标准,而且可以作为计算工具。直线常规分析也补充了有限和无限导电性故障的表征。因此,引入了新的方程来估计这类系统的断层距离、断层电导率和断层表皮因子。所提出的表达式和方法已成功地通过现场和综合案例进行了验证。
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