Quantitative dynamic analysis of gas desorption contribution to production in shale gas reservoirs

Tingyun Yang, Xiang Li, Dongxiao Zhang
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引用次数: 36

Abstract

Unlike in conventional gas reservoirs, gas in shale reservoirs is stored mainly as free gas and adsorbed gas, and a small amount of dissolved gas. Well production from shale gas reservoirs usually exhibits sharply decline trend in the early period of production and then turns to long-term stable production at a relatively low rate, for which gas desorption contribution has been considered as a possible explanation.

This study aims at providing an accurate evaluation of the contribution from gas desorption to dynamic production. Through incorporation of artificial component subdivision in a numerical simulator, the production contributions of the free and adsorbed gas can be obtained separately. This analysis approach is validated firstly and then applied to two case studies based on conceptual models of Barnett and Antrim Shale. The results show that desorbed gas dominates the production in Antrim Shale, while it only plays a small role in the production in Barnett Shale. The impact of permeability and initial gas saturation are also analyzed.

In previous studies, numerical and analytical simulators were used to investigate the difference between the production performances with or without desorption, attributing the production increase to gas desorption. However, our study shows this treatment overestimates the contribution from gas desorption.

This work provides a simple but accurate method for the dynamic analysis of desorption contribution to total production, contributing to reservoir resource assessment, the understanding of production mechanisms, and shale gas production simulation.

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页岩气藏气体解吸对产量贡献的定量动态分析
与常规气藏不同,页岩气藏中的天然气主要以游离气和吸附气的形式存在,并存在少量的溶解气。页岩气藏的井产量通常在开采初期呈急剧下降趋势,然后以相对较低的速度转向长期稳定生产,天然气解吸贡献被认为是一种可能的解释。本研究旨在准确评价气体解吸对动态生产的贡献。通过在数值模拟中引入人工组分细分,可以分别得到自由气和吸附气的产量贡献。首先验证了该分析方法,然后将其应用于基于Barnett和Antrim页岩概念模型的两个案例研究。结果表明,解吸气在Antrim页岩中占主导地位,而在Barnett页岩中作用较小。分析了渗透率和初始含气饱和度的影响。在以往的研究中,采用数值模拟和解析模拟的方法研究了有脱附和无脱附情况下生产性能的差异,将增产归因于气体的脱附。然而,我们的研究表明,这种处理高估了气体解吸的贡献。这项工作为解吸对总产量贡献的动态分析提供了一种简单而准确的方法,有助于储层资源评价、生产机制理解和页岩气生产模拟。
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