低渗透储层煤层气低速流动数学模型

Y. Ming, Zhu Weiyao, Song Hong-qing, Yang Jiaosheng
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引用次数: 0

摘要

建立了考虑低速非达西流动特性以及甲烷从煤基质中解吸和从基质向煤层中扩散耦合作用的煤层气运移数学模型。在若干简化假设条件下,提出了单井控制面积的简单计算方法。采用伪阈值压力梯度(PTPG)表征了低流速非达西流动特性。数值结果表明,PTPG和解吸速率对控制半径的确定有显著影响。PTPG对外围储量的部署有负面影响。增加PTPG会减少控制区域。相反,解吸速率越大,控制面积越大。该计算方法将为工程师更好地了解煤层气的发展提供依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mathematical Model for Low-Velocity Flow of Coal Bed Methane in Low-Permeability Reservoirs
A mathematical model for transport of coal bed methane(CBM) was presented, taking into account low-velocity non-Darcy flow behavior and coupling of methane desorption from coal matrix and diffusion from matrix into cleats. Under several simplifying assumptions, a simple calculation method for control area of single wells was proposed. Low-velocity non-Darcy flow behavior was characterized by pseudo threshold pressure gradient (PTPG). Numerical results show that both PTPG and desorption rate have a significant impact on determination of control radius. PTPG has a negative effect on the deployment of the peripheral reserves. Increasing PTPG would result in fewer control area. In the contrast, increasing desorption rate would lead to larger control area. The calculation method would provide engineers a better understanding of development of CBM.
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