NUMERICAL SIMULATION OF NATURALLY FRACTURED SHALE GAS RESERVOIRS APPLYING THE LAYER MODEL

Brazilian Journal of Petroleum and Gas Pub Date : 2020-07-21 DOI:10.5419/bjpg2020-0010

J. Junior, R. Queiroz, G. Souza, H. P. A. Souto

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Abstract

Typically, hydrocarbon reservoirs have heterogeneities that influence pressure variation in producing wells. In the case of natural fractures, the layer model has been widely applied to obtain analytical and numerical solutions. In this model, we superimpose the porous media layers representing the porous matrix and fractures. In this work, the layer model is used in the numerical simulation, using cylindrical geometry and finite differences, to determine the pressure in natural gas producing wells. We consider shale gas reservoirs, and obtain the numerical results investigating the effects resulting from the presence of fractures and non-Darcy flow due to slip and adsorption phenomena. This work studies grid refinement and performs numerical verification, as well as a sensitivity analysis varying the main physical parameters that directly influence the reservoir and well pressures, such as permeability, porosity, and thickness of the fracture, reservoir temperature, and the Langmuir pressure and volume. As expected, from specialized and diagnostic plots, we can visualize how fractures favor the flow while capturing typical flow regimes of fractured reservoirs described in the literature.

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应用层模型对天然裂缝性页岩气藏进行数值模拟

通常，油气藏具有非均质性，会影响生产井的压力变化。对于天然裂缝，层模型已被广泛应用于解析解和数值解。在这个模型中，我们叠加了代表多孔基质和裂缝的多孔介质层。在本工作中，数值模拟中使用层模型，利用圆柱几何和有限差分来确定天然气生产井的压力。以页岩气储层为例，研究了裂缝的存在、滑移和吸附引起的非达西流动对页岩气储层的影响。这项工作研究了网格细化，并进行了数值验证，以及对直接影响储层和井压的主要物理参数(如渗透率、孔隙度、裂缝厚度、储层温度、Langmuir压力和体积)进行敏感性分析。正如预期的那样，从专门的诊断图中，我们可以看到裂缝如何有利于流动，同时捕获文献中描述的裂缝性储层的典型流动状态。

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Brazilian Journal of Petroleum and Gas

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