Estimation of the Maximum Migration Distance of a Finite Volume of Light Fluid in a Saturated Porous Medium

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Flow of a light fluid through a porous medium saturated with another (heavy) fluid is studied. The one-dimensional formulation of the problem describing two-phase flow in a vertical isolated porous column is considered. Assuming that the volume of light liquid is finite, its maximum upward motion under the action of the buoyancy force is estimated. A simple method for approximate estimate of this migration distance is proposed. It is shown that it is determined by only a single dimensionless number (similarity criterion) over a wide range of fluid and porous medium parameters, and the effect of other parameters is small. The dependence of the maximum migration distance on the distingushed similarity criterion is calculated. The results of study can be useful in estimating the maximum distance over which the injected gas propagates from the well through a water-saturated formation.

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作者简介

A. Afanasyev

Lomonosov Moscow State University

编辑信件的主要联系方式.
Email: afanasyev@imec.msu.ru
俄罗斯联邦, Moscow

E. Vedeneeva

Lomonosov Moscow State University

Email: el-vedeneeva@imec.msu.ru
俄罗斯联邦, Moscow

I. Mikheev

Lomonosov Moscow State University

Email: afanasyev@imec.msu.ru
俄罗斯联邦, Moscow

参考

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2. Fig. 1. Schematic of the light fluid saturation distribution g at t = 0 and t → ∞. The force of gravity acts in the opposite direction to the x-axis.

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3. Fig. 2. Schematic of relative phase permeability curves for drainage and impregnation conditions.

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4. Fig. 3. Typical view of the function G (sg, sg,hy) when sg = sg,hy (drainage) and sg,hy = 1 (impregnation). The values of sg scaled according to (8) are used.

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5. Fig. 4. Calculated distributions of sg (x) at successive time moments. At t ≥ 100, the flow parameters do not change practically with time. The bold curve shows the distribution of sg,hy at t >> 1.

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6. Fig. 5. Calculated light fluid displacements g under different similarity criteria. The dots correspond to the results of numerical simulation, and the curves correspond to the approximate estimation of x*max.

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