Skin Factor Consideration in Decline Curve Analysis

SPE Journal Pub Date : 2024-02-01 DOI:10.2118/219451-pa
S. Al-Rbeawi
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Abstract

This paper introduces an approach for the impact of skin factor on the decline curve analysis of hydraulically fractured reservoirs. The objective is to consider this impact in the production forecasting and the ultimate recovery estimation. The approach focuses on reducing the uncertainties that could be raised from this impact on the production history and increasing the accuracy of the predicted flow rates. It proposes an easy and promising tool for the decline curve analysis that could be applied confidently to different oil- and gas-producing wells and different reservoirs. This approach utilizes the rate-normalized flow rate derivative β behavior of the fractured reservoirs. This derivative demonstrates a constant behavior with time for each flow regime when the production history has not undergone the impact of the skin factor. However, the constant behavior no longer exists when this impact has influenced the production history. Instead, a power-law type model governs the relationship between the flow rate derivative and production time. New analytical flow rate decline curve models, exponential-type, are derived from the flow rate derivative power-law type models for the flow regimes. Different models for calculating the skin factor are developed for the three linear flow regimes that could be observed during the transient state flow conditions. The proposed flow rate models are used to simulate the production history and forecast the future performance. Moreover, the hydraulic fracture conductivity can be calculated using these models as well as the flow rate loss caused by skin factor. Several case studies are examined by the proposed approach where the production history is used to characterize the dominant flow regimes. The study has reached several observations and conclusions. The impact of skin factor is seen clearly throughout transient state flow regimes; however, this impact declines sharply before reaching pseudosteady-state flow (boundary-dominated flow regime). The impact of the skin factor alternates the constant behavior of the flow rate derivative with time to a power-law type relationship. A straight line of a slope (0.5) is diagnosed during hydraulic fracture and formation linear flow regime on the log-log plot of the flow rate derivative β and time, while the bilinear flow regime demonstrates a straight line of a slope (0.25). Because of the skin factor, exponential decline curve models replace the power-law type models of the flow rate during the abovementioned flow regimes. These models exhibit an excellent match between the calculated flow rate and the production history. The maximum flow rate loss occurs during very early production time even though the skin factor during this time is less than the intermediate production time. This study presents a novel approach for the decline curve analysis taking into account the impact of skin factor. The novelty is represented by considering the flow regimes in the production forecasting of hydraulically fractured reservoirs. This approach is smoothly applied to predict the future performance with no need to know the wellbore and reservoir parameters. It can be used to predict the declining flow rate for a constant or varied bottomhole flowing pressure.
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衰减曲线分析中的皮肤因素考虑
本文介绍了集肤系数对水力压裂储层衰退曲线分析的影响。目的是在产量预测和最终采收率估算中考虑这种影响。该方法的重点是减少这种影响对生产历史可能造成的不确定性,提高预测流量的准确性。它为衰退曲线分析提出了一种简便而有前途的工具,可自信地应用于不同的油气生产井和不同的储层。这种方法利用了压裂储层的速率归一化流量导数 β 行为。当生产历史没有受到表皮因子的影响时,该导数在每种流态下都表现出随时间变化的恒定行为。然而,当生产历史受到表皮因子的影响时,这种恒定行为就不复存在了。取而代之的是,流量导数与生产时间之间的关系受幂律模型的制约。新的流量下降曲线分析模型(指数型)是根据流量导数幂律型模型推导出的,适用于各种流动状态。针对瞬态流动条件下可观察到的三种线性流动状态,建立了不同的集肤系数计算模型。所提出的流速模型可用于模拟生产历史和预测未来性能。此外,还可以利用这些模型计算水力裂缝传导率以及集肤因子造成的流速损失。利用所提出的方法对几个案例进行了研究,其中生产历史被用来描述主要流态。研究得出了一些观察结果和结论。在整个瞬态流态中,集肤效应的影响非常明显;但在达到伪稳态流态(边界主导流态)之前,集肤效应的影响急剧下降。集肤因子的影响将流速导数随时间变化的恒定行为转变为幂律关系。在水力压裂和地层线性流动过程中,流速导数β与时间的对数图显示出一条斜率为(0.5)的直线,而双线性流动过程则显示出一条斜率为(0.25)的直线。由于趋肤效应,指数下降曲线模型取代了上述流动状态下的幂律型流速模型。这些模型显示出计算流量与生产历史记录之间的极佳匹配。最大流量损失出现在生产初期,尽管这一时期的集肤系数小于生产中期。本研究提出了一种考虑到集肤系数影响的新型衰减曲线分析方法。这种新方法在水力压裂储层的产量预测中考虑了流态。这种方法无需了解井筒和储层参数,即可顺利应用于预测未来性能。它可用于预测恒定或变化的井底流动压力下的递减流量。
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