Kleinberg R L
Schlumberger-Doll Research, Ridgefield, CT 06877.
Magn Reson Imaging. 1994;12(2):271-4. doi: 10.1016/0730-725x(94)91534-2.
The properties of porous rocks make NMR measurements difficult to interpret. Broad distributions of pore sizes give rise to magnetization decays characterized by broad distributions of relaxation times. The pore space, which is well coupled with respect to steady state fluid flow and low frequency electrical conductivity, appears disjoint on time scales probed by NMR. Pulsed field gradient NMR measurements show that pores are elongated and that relaxation times measure the minimum dimension. Diffusion in magnetic field gradients affects the transverse relaxation spectrum in complicated ways, but in the surface dominated regime there is a simple relationship between T1 and T2.
多孔岩石的特性使得核磁共振测量结果难以解释。孔径的广泛分布导致磁化强度衰减,其特征在于弛豫时间的广泛分布。孔隙空间在稳态流体流动和低频电导率方面耦合良好,但在核磁共振探测的时间尺度上却显得不连续。脉冲场梯度核磁共振测量表明,孔隙是拉长的,且弛豫时间测量的是最小尺寸。磁场梯度中的扩散以复杂的方式影响横向弛豫谱,但在表面主导区域,T1和T2之间存在简单的关系。