超低渗岩石渗透率测试实验方法

室内岩心分析通常依据气测渗透率值与平均压力倒数之间的线性关系校正得到岩石的等效绝对渗透率。由气测渗透率实验研究发现：对于渗透率小于0．1×10＾-3μm^2量级的超低渗岩石，气测渗透率值与平均压力倒数成非线性关系，校正得到的等效绝对渗透率值会偏小甚至为负值。产生这种现象的本质原因在于超低渗岩石孔道半径极小，壁面滑移分子层厚度占孔道半径的比例大大增加，滑脱作用对流动的贡献增强。为此，依据稀薄空气动力学理论，提出增加出口端气体压力的方法能有效降低壁面滑移分子层厚度，从而减小滑脱作用对流动的贡献。结果表明增加出口端压力后，超低渗岩石的气测渗透率值与平均压力倒数成线性关系，校正后可以得到准确的绝对渗透率。

Gas Flow Through Square Arrays of Circular Cylinders with Klinkenberg Effect:A Lattice Boltzmann Study

It is well known that,as non-continuum gas flows through microscale porous media,the gas permeability derived from Darcy law is larger than the absolute permeability,which is caused by the so-called Klinkenberg effect or slippage effect.In this paper,an effective definition of Knudsen number for gas flows through square arrays of circular cylinders and a local boundary condition for non-continuum gas flows are first proposed,and then the multi-relaxation-time lattice Boltzmann equation including discrete effects on boundary condition is used to investigate Klinkenberg effect on gas flow through circular cylinders in square arrays.Numerical results show that the celebrated Klinkenberg equation is only correct for low Knudsen number,and secondorder correction to Klinkenberg equation is necessary with the increase of Knudsen number.Finally,the present numerical results are also compared to some available results,and in general an agreement between them is observed.

深部储层岩石渗流的滑脱效应研究——以煤和砂岩为例

深部高应力作用下致密储层岩石因其孔径与气体分子平均自由程相当,会诱发气体的滑脱效应,进而对瓦斯(煤层气)长期稳产产生重要影响。基于此,开展深部高应力作用下煤和砂岩的氦气注入试验。研究结果表明:在全抽采周期,高应力煤体中氦气运移始终表现出显著的滑脱效应,即使在高达8 MPa的储层压力下也不可避免,砂岩渗流则基本上不受滑脱效应影响。相较于线性Klinkenberg方程和二次型Klinkenberg修正方程,双滑移Klinkenberg方程更适用于深部高应力煤体的表观渗透率ka修正,进而得到煤体固有渗透率k_(∞)与有效平均应力σ_(vme)之间满足线性关系,这是由高应力状态下煤体内结构异质性减弱、均质性增强所致。均质性砂岩的渗流行为表现为线性力学响应特性,证明了煤体滑脱效应修正的合理性。由于深部煤体k_(∞)随σ_(vme)呈线性弱衰减规律,导致应力型渗透率在应力加载作用下略有降低,最终表现为滑脱效应随着σ_(vme)增加而减弱的反常现象。以双胡克定律为理论基础,建立综合考虑高应力煤体裂隙开度呈线性变化和滑脱型渗透率呈指数衰减规律的渗透率模型,并在不同边界条件下取得了良好的拟合效果。