Контроль движения жидкости в пористой среде методом ЯМР-релаксометрии

В. В. Майков, Сергей Васильевич Жаков, И. В. Бызов, А. А. Мысик
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Abstract

The possibility of fixing velocities of fluid motion in model porous medium (glass beads) by measuring the transverse relaxation time T2 by spin echo method is shown. The magnetic field gradient arising due to the difference in the magnetic permeability of the fluid and the porous medium causes a decrease in the average time T2, with makes it possible to fix the fluid motion in the absence of an external magnetic field gradient. The addition of magnetic nanoparticles to the fluid under study increases the dependence of T2 on fluid velocity and increases the sensitivity in determining the permeability of porous medium by NMR-relaxometry. V.V.Maikov, S.V.Zhakov, I.V.Byzov, A.A.Mysik
用自旋回波法测量横向弛豫时间T2可以确定模型多孔介质(玻璃微珠)中流体运动速度。由于流体和多孔介质的磁导率不同而产生的磁场梯度使平均时间T2减小,使得在没有外部磁场梯度的情况下固定流体运动成为可能。在研究流体中加入磁性纳米颗粒增加了T2对流体速度的依赖,提高了核磁共振弛豫法测定多孔介质渗透率的灵敏度。Maikov, S.V.Zhakov, I.V.Byzov, a.a.m isik
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